rogue-engine-user-scripts.js.map 2.5 MB

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B=A.__wbindgen_add_to_stack_pointer(-16);A.rawcolliderset_coHeightfieldNCols(B,this.ptr,I);var g=G()[B/4+0],C=G()[B/4+1];return 0===g?void 0:C>>>0}finally{A.__wbindgen_add_to_stack_pointer(16)}}coParent(I){try{const B=A.__wbindgen_add_to_stack_pointer(-16);A.rawcolliderset_coParent(B,this.ptr,I);var g=G()[B/4+0],C=D()[B/8+1];return 0===g?void 0:C}finally{A.__wbindgen_add_to_stack_pointer(16)}}coSetEnabled(I,g){A.rawcolliderset_coSetEnabled(this.ptr,I,g)}coIsEnabled(I){return 0!==A.rawcolliderset_coIsEnabled(this.ptr,I)}coFriction(I){return A.rawcolliderset_coFriction(this.ptr,I)}coRestitution(I){return A.rawcolliderset_coRestitution(this.ptr,I)}coDensity(I){return A.rawcolliderset_coDensity(this.ptr,I)}coMass(I){return A.rawcolliderset_coMass(this.ptr,I)}coVolume(I){return A.rawcolliderset_coVolume(this.ptr,I)}coCollisionGroups(I){return A.rawcolliderset_coCollisionGroups(this.ptr,I)>>>0}coSolverGroups(I){return A.rawcolliderset_coSolverGroups(this.ptr,I)>>>0}coActiveHooks(I){return A.rawcolliderset_coActiveHooks(this.ptr,I)>>>0}coActiveCollisionTypes(I){return A.rawcolliderset_coActiveCollisionTypes(this.ptr,I)}coActiveEvents(I){return A.rawcolliderset_coActiveEvents(this.ptr,I)>>>0}coContactForceEventThreshold(I){return A.rawcolliderset_coContactForceEventThreshold(this.ptr,I)}coContainsPoint(I,g){a(g,QA);return 0!==A.rawcolliderset_coContainsPoint(this.ptr,I,g.ptr)}coCastShape(I,g,C,B,Q,E,i,D){a(g,QA),a(C,IA),a(B,QA),a(Q,_),a(E,QA);const o=A.rawcolliderset_coCastShape(this.ptr,I,g.ptr,C.ptr,B.ptr,Q.ptr,E.ptr,i,D);return 0===o?void 0:BA.__wrap(o)}coCastCollider(I,g,C,B,Q,E){a(g,QA),a(B,QA);const i=A.rawcolliderset_coCastCollider(this.ptr,I,g.ptr,C,B.ptr,Q,E);return 0===i?void 0:gA.__wrap(i)}coIntersectsShape(I,g,C,B){a(g,IA),a(C,QA),a(B,_);return 0!==A.rawcolliderset_coIntersectsShape(this.ptr,I,g.ptr,C.ptr,B.ptr)}coContactShape(I,g,C,B,Q){a(g,IA),a(C,QA),a(B,_);const E=A.rawcolliderset_coContactShape(this.ptr,I,g.ptr,C.ptr,B.ptr,Q);return 0===E?void 0:CA.__wrap(E)}coContactCollider(I,g,C){const B=A.rawcolliderset_coContactCollider(this.ptr,I,g,C);return 0===B?void 0:CA.__wrap(B)}coProjectPoint(I,g,C){a(g,QA);const B=A.rawcolliderset_coProjectPoint(this.ptr,I,g.ptr,C);return X.__wrap(B)}coIntersectsRay(I,g,C,B){a(g,QA),a(C,QA);return 0!==A.rawcolliderset_coIntersectsRay(this.ptr,I,g.ptr,C.ptr,B)}coCastRay(I,g,C,B,Q){a(g,QA),a(C,QA);return A.rawcolliderset_coCastRay(this.ptr,I,g.ptr,C.ptr,B,Q)}coCastRayAndGetNormal(I,g,C,B,Q){a(g,QA),a(C,QA);const E=A.rawcolliderset_coCastRayAndGetNormal(this.ptr,I,g.ptr,C.ptr,B,Q);return 0===E?void 0:u.__wrap(E)}coSetSensor(I,g){A.rawcolliderset_coSetSensor(this.ptr,I,g)}coSetRestitution(I,g){A.rawcolliderset_coSetRestitution(this.ptr,I,g)}coSetFriction(I,g){A.rawcolliderset_coSetFriction(this.ptr,I,g)}coFrictionCombineRule(I){return A.rawcolliderset_coFrictionCombineRule(this.ptr,I)>>>0}coSetFrictionCombineRule(I,g){A.rawcolliderset_coSetFrictionCombineRule(this.ptr,I,g)}coRestitutionCombineRule(I){return A.rawcolliderset_coRestitutionCombineRule(this.ptr,I)>>>0}coSetRestitutionCombineRule(I,g){A.rawcolliderset_coSetRestitutionCombineRule(this.ptr,I,g)}coSetCollisionGroups(I,g){A.rawcolliderset_coSetCollisionGroups(this.ptr,I,g)}coSetSolverGroups(I,g){A.rawcolliderset_coSetSolverGroups(this.ptr,I,g)}coSetActiveHooks(I,g){A.rawcolliderset_coSetActiveHooks(this.ptr,I,g)}coSetActiveEvents(I,g){A.rawcolliderset_coSetActiveEvents(this.ptr,I,g)}coSetActiveCollisionTypes(I,g){A.rawcolliderset_coSetActiveCollisionTypes(this.ptr,I,g)}coSetShape(I,g){a(g,IA),A.rawcolliderset_coSetShape(this.ptr,I,g.ptr)}coSetContactForceEventThreshold(I,g){A.rawcolliderset_coSetContactForceEventThreshold(this.ptr,I,g)}coSetDensity(I,g){A.rawcolliderset_coSetDensity(this.ptr,I,g)}coSetMass(I,g){A.rawcolliderset_coSetMass(this.ptr,I,g)}coSetMassProperties(I,g,C,B,Q){a(C,QA),a(B,QA),a(Q,_),A.rawcolliderset_coSetMassProperties(this.ptr,I,g,C.ptr,B.ptr,Q.ptr)}constructor(){const I=A.rawcolliderset_new();return l.__wrap(I)}len(){return A.rawcolliderset_len(this.ptr)>>>0}contains(I){return 0!==A.rawcolliderset_contains(this.ptr,I)}createCollider(I,g,C,B,Q,E,i,o,w,k,S,M,K,y,J,U,h,N,F,q,R,s,c,Y){try{const l=A.__wbindgen_add_to_stack_pointer(-16);a(g,IA),a(C,QA),a(B,_),a(i,QA),a(o,QA),a(w,_),a(Y,v),A.rawcolliderset_createCollider(l,this.ptr,I,g.ptr,C.ptr,B.ptr,Q,E,i.ptr,o.ptr,w.ptr,k,S,M,K,y,J,U,h,N,F,q,R,s,c,Y.ptr);var L=G()[l/4+0],H=D()[l/8+1];return 0===L?void 0:H}finally{A.__wbindgen_add_to_stack_pointer(16)}}remove(I,g,C,B){a(g,b),a(C,v),A.rawcolliderset_remove(this.ptr,I,g.ptr,C.ptr,B)}isHandleValid(I){return 0!==A.rawcolliderset_contains(this.ptr,I)}forEachColliderHandle(g){try{A.rawcolliderset_forEachColliderHandle(this.ptr,J(g))}finally{I[y++]=void 0}}}class t{static __wrap(A){const I=Object.create(t.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawcontactforceevent_free(I)}collider1(){return A.rawcharactercollision_handle(this.ptr)}collider2(){return A.rawcontactforceevent_collider2(this.ptr)}total_force(){const I=A.rawcontactforceevent_total_force(this.ptr);return QA.__wrap(I)}total_force_magnitude(){return A.rawcontactforceevent_total_force_magnitude(this.ptr)}max_force_direction(){const I=A.rawcontactforceevent_max_force_direction(this.ptr);return QA.__wrap(I)}max_force_magnitude(){return A.rawcontactforceevent_max_force_magnitude(this.ptr)}}class p{static __wrap(A){const I=Object.create(p.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawcontactmanifold_free(I)}normal(){const I=A.rawcontactmanifold_normal(this.ptr);return QA.__wrap(I)}local_n1(){const I=A.rawcontactmanifold_local_n1(this.ptr);return QA.__wrap(I)}local_n2(){const I=A.rawcontactmanifold_local_n2(this.ptr);return QA.__wrap(I)}subshape1(){return A.rawcontactmanifold_subshape1(this.ptr)>>>0}subshape2(){return A.rawcontactmanifold_subshape2(this.ptr)>>>0}num_contacts(){return A.rawcontactmanifold_num_contacts(this.ptr)>>>0}contact_local_p1(I){const g=A.rawcontactmanifold_contact_local_p1(this.ptr,I);return 0===g?void 0:QA.__wrap(g)}contact_local_p2(I){const g=A.rawcontactmanifold_contact_local_p2(this.ptr,I);return 0===g?void 0:QA.__wrap(g)}contact_dist(I){return A.rawcontactmanifold_contact_dist(this.ptr,I)}contact_fid1(I){return A.rawcontactmanifold_contact_fid1(this.ptr,I)>>>0}contact_fid2(I){return A.rawcontactmanifold_contact_fid2(this.ptr,I)>>>0}contact_impulse(I){return A.rawcontactmanifold_contact_impulse(this.ptr,I)}contact_tangent_impulse_x(I){return A.rawcontactmanifold_contact_tangent_impulse_x(this.ptr,I)}contact_tangent_impulse_y(I){return A.rawcontactmanifold_contact_tangent_impulse_y(this.ptr,I)}num_solver_contacts(){return A.rawcontactmanifold_num_solver_contacts(this.ptr)>>>0}solver_contact_point(I){const g=A.rawcontactmanifold_solver_contact_point(this.ptr,I);return 0===g?void 0:QA.__wrap(g)}solver_contact_dist(I){return A.rawcontactmanifold_solver_contact_dist(this.ptr,I)}solver_contact_friction(I){return A.rawcontactmanifold_solver_contact_friction(this.ptr,I)}solver_contact_restitution(I){return A.rawcontactmanifold_solver_contact_restitution(this.ptr,I)}solver_contact_tangent_velocity(I){const g=A.rawcontactmanifold_solver_contact_tangent_velocity(this.ptr,I);return QA.__wrap(g)}}class e{static __wrap(A){const I=Object.create(e.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawcontactpair_free(I)}collider1(){return A.rawcontactpair_collider1(this.ptr)}collider2(){return A.rawcontactpair_collider2(this.ptr)}numContactManifolds(){return A.rawcontactpair_numContactManifolds(this.ptr)>>>0}contactManifold(I){const g=A.rawcontactpair_contactManifold(this.ptr,I);return 0===g?void 0:p.__wrap(g)}}class r{static __wrap(A){const I=Object.create(r.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawdebugrenderpipeline_free(I)}constructor(){const I=A.rawdebugrenderpipeline_new();return r.__wrap(I)}vertices(){return B(A.rawdebugrenderpipeline_vertices(this.ptr))}colors(){return B(A.rawdebugrenderpipeline_colors(this.ptr))}render(I,g,C,B,Q){a(I,v),a(g,l),a(C,n),a(B,j),a(Q,x),A.rawdebugrenderpipeline_render(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q.ptr)}}class d{static __wrap(A){const I=Object.create(d.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawdeserializedworld_free(I)}takeGravity(){const I=A.rawdeserializedworld_takeGravity(this.ptr);return 0===I?void 0:QA.__wrap(I)}takeIntegrationParameters(){const I=A.rawdeserializedworld_takeIntegrationParameters(this.ptr);return 0===I?void 0:Z.__wrap(I)}takeIslandManager(){const I=A.rawdeserializedworld_takeIslandManager(this.ptr);return 0===I?void 0:b.__wrap(I)}takeBroadPhase(){const I=A.rawdeserializedworld_takeBroadPhase(this.ptr);return 0===I?void 0:Y.__wrap(I)}takeNarrowPhase(){const I=A.rawdeserializedworld_takeNarrowPhase(this.ptr);return 0===I?void 0:x.__wrap(I)}takeBodies(){const I=A.rawdeserializedworld_takeBodies(this.ptr);return 0===I?void 0:v.__wrap(I)}takeColliders(){const I=A.rawdeserializedworld_takeColliders(this.ptr);return 0===I?void 0:l.__wrap(I)}takeImpulseJoints(){const I=A.rawdeserializedworld_takeImpulseJoints(this.ptr);return 0===I?void 0:n.__wrap(I)}takeMultibodyJoints(){const I=A.rawdeserializedworld_takeMultibodyJoints(this.ptr);return 0===I?void 0:j.__wrap(I)}}class T{static __wrap(A){const I=Object.create(T.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_raweventqueue_free(I)}constructor(I){const g=A.raweventqueue_new(I);return T.__wrap(g)}drainCollisionEvents(g){try{A.raweventqueue_drainCollisionEvents(this.ptr,J(g))}finally{I[y++]=void 0}}drainContactForceEvents(g){try{A.raweventqueue_drainContactForceEvents(this.ptr,J(g))}finally{I[y++]=void 0}}clear(){A.raweventqueue_clear(this.ptr)}}class O{static __wrap(A){const I=Object.create(O.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawgenericjoint_free(I)}static spherical(I,g){a(I,QA),a(g,QA);const C=A.rawgenericjoint_spherical(I.ptr,g.ptr);return O.__wrap(C)}static prismatic(I,g,C,B,Q,E){a(I,QA),a(g,QA),a(C,QA);const i=A.rawgenericjoint_prismatic(I.ptr,g.ptr,C.ptr,B,Q,E);return 0===i?void 0:O.__wrap(i)}static fixed(I,g,C,B){a(I,QA),a(g,_),a(C,QA),a(B,_);const Q=A.rawgenericjoint_fixed(I.ptr,g.ptr,C.ptr,B.ptr);return O.__wrap(Q)}static revolute(I,g,C){a(I,QA),a(g,QA),a(C,QA);const B=A.rawgenericjoint_revolute(I.ptr,g.ptr,C.ptr);return 0===B?void 0:O.__wrap(B)}}class n{static __wrap(A){const I=Object.create(n.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawimpulsejointset_free(I)}jointType(I){return A.rawimpulsejointset_jointType(this.ptr,I)>>>0}jointBodyHandle1(I){return A.rawimpulsejointset_jointBodyHandle1(this.ptr,I)}jointBodyHandle2(I){return A.rawimpulsejointset_jointBodyHandle2(this.ptr,I)}jointFrameX1(I){const g=A.rawimpulsejointset_jointFrameX1(this.ptr,I);return _.__wrap(g)}jointFrameX2(I){const g=A.rawimpulsejointset_jointFrameX2(this.ptr,I);return _.__wrap(g)}jointAnchor1(I){const g=A.rawimpulsejointset_jointAnchor1(this.ptr,I);return QA.__wrap(g)}jointAnchor2(I){const g=A.rawimpulsejointset_jointAnchor2(this.ptr,I);return QA.__wrap(g)}jointSetAnchor1(I,g){a(g,QA),A.rawimpulsejointset_jointSetAnchor1(this.ptr,I,g.ptr)}jointSetAnchor2(I,g){a(g,QA),A.rawimpulsejointset_jointSetAnchor2(this.ptr,I,g.ptr)}jointContactsEnabled(I){return 0!==A.rawimpulsejointset_jointContactsEnabled(this.ptr,I)}jointSetContactsEnabled(I,g){A.rawimpulsejointset_jointSetContactsEnabled(this.ptr,I,g)}jointLimitsEnabled(I,g){return 0!==A.rawimpulsejointset_jointLimitsEnabled(this.ptr,I,g)}jointLimitsMin(I,g){return A.rawimpulsejointset_jointLimitsMin(this.ptr,I,g)}jointLimitsMax(I,g){return A.rawimpulsejointset_jointLimitsMax(this.ptr,I,g)}jointSetLimits(I,g,C,B){A.rawimpulsejointset_jointSetLimits(this.ptr,I,g,C,B)}jointConfigureMotorModel(I,g,C){A.rawimpulsejointset_jointConfigureMotorModel(this.ptr,I,g,C)}jointConfigureMotorVelocity(I,g,C,B){A.rawimpulsejointset_jointConfigureMotorVelocity(this.ptr,I,g,C,B)}jointConfigureMotorPosition(I,g,C,B,Q){A.rawimpulsejointset_jointConfigureMotorPosition(this.ptr,I,g,C,B,Q)}jointConfigureMotor(I,g,C,B,Q,E){A.rawimpulsejointset_jointConfigureMotor(this.ptr,I,g,C,B,Q,E)}constructor(){const I=A.rawimpulsejointset_new();return n.__wrap(I)}createJoint(I,g,C,B){a(I,O);return A.rawimpulsejointset_createJoint(this.ptr,I.ptr,g,C,B)}remove(I,g){A.rawimpulsejointset_remove(this.ptr,I,g)}len(){return A.rawimpulsejointset_len(this.ptr)>>>0}contains(I){return 0!==A.rawimpulsejointset_contains(this.ptr,I)}forEachJointHandle(g){try{A.rawimpulsejointset_forEachJointHandle(this.ptr,J(g))}finally{I[y++]=void 0}}forEachJointAttachedToRigidBody(g,C){try{A.rawimpulsejointset_forEachJointAttachedToRigidBody(this.ptr,g,J(C))}finally{I[y++]=void 0}}}class Z{static __wrap(A){const I=Object.create(Z.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawintegrationparameters_free(I)}constructor(){const I=A.rawintegrationparameters_new();return Z.__wrap(I)}get dt(){return A.rawintegrationparameters_dt(this.ptr)}get erp(){return A.rawcharactercollision_toi(this.ptr)}get allowedLinearError(){return A.rawintegrationparameters_allowedLinearError(this.ptr)}get predictionDistance(){return A.rawintegrationparameters_predictionDistance(this.ptr)}get maxVelocityIterations(){return A.rawintegrationparameters_maxVelocityIterations(this.ptr)>>>0}get maxVelocityFrictionIterations(){return A.rawintegrationparameters_maxVelocityFrictionIterations(this.ptr)>>>0}get maxStabilizationIterations(){return A.rawintegrationparameters_maxStabilizationIterations(this.ptr)>>>0}get minIslandSize(){return A.rawintegrationparameters_minIslandSize(this.ptr)>>>0}get maxCcdSubsteps(){return A.rawintegrationparameters_maxCcdSubsteps(this.ptr)>>>0}set dt(I){A.rawintegrationparameters_set_dt(this.ptr,I)}set erp(I){A.rawintegrationparameters_set_erp(this.ptr,I)}set allowedLinearError(I){A.rawintegrationparameters_set_allowedLinearError(this.ptr,I)}set predictionDistance(I){A.rawintegrationparameters_set_predictionDistance(this.ptr,I)}set maxVelocityIterations(I){A.rawintegrationparameters_set_maxVelocityIterations(this.ptr,I)}set maxVelocityFrictionIterations(I){A.rawintegrationparameters_set_maxVelocityFrictionIterations(this.ptr,I)}set maxStabilizationIterations(I){A.rawintegrationparameters_set_maxStabilizationIterations(this.ptr,I)}set minIslandSize(I){A.rawintegrationparameters_set_minIslandSize(this.ptr,I)}set maxCcdSubsteps(I){A.rawintegrationparameters_set_maxCcdSubsteps(this.ptr,I)}}class b{static __wrap(A){const I=Object.create(b.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawislandmanager_free(I)}constructor(){const I=A.rawislandmanager_new();return b.__wrap(I)}forEachActiveRigidBodyHandle(g){try{A.rawislandmanager_forEachActiveRigidBodyHandle(this.ptr,J(g))}finally{I[y++]=void 0}}}class W{static __wrap(A){const I=Object.create(W.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawkinematiccharactercontroller_free(I)}constructor(I){const g=A.rawkinematiccharactercontroller_new(I);return W.__wrap(g)}up(){const I=A.rawkinematiccharactercontroller_up(this.ptr);return QA.__wrap(I)}setUp(I){a(I,QA),A.rawkinematiccharactercontroller_setUp(this.ptr,I.ptr)}offset(){return A.rawkinematiccharactercontroller_offset(this.ptr)}setOffset(I){A.rawkinematiccharactercontroller_setOffset(this.ptr,I)}slideEnabled(){return 0!==A.rawkinematiccharactercontroller_slideEnabled(this.ptr)}setSlideEnabled(I){A.rawkinematiccharactercontroller_setSlideEnabled(this.ptr,I)}autostepMaxHeight(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.rawkinematiccharactercontroller_autostepMaxHeight(C,this.ptr);var I=G()[C/4+0],g=K()[C/4+1];return 0===I?void 0:g}finally{A.__wbindgen_add_to_stack_pointer(16)}}autostepMinWidth(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.rawkinematiccharactercontroller_autostepMinWidth(C,this.ptr);var I=G()[C/4+0],g=K()[C/4+1];return 0===I?void 0:g}finally{A.__wbindgen_add_to_stack_pointer(16)}}autostepIncludesDynamicBodies(){const I=A.rawkinematiccharactercontroller_autostepIncludesDynamicBodies(this.ptr);return 16777215===I?void 0:0!==I}autostepEnabled(){return 0!==A.rawkinematiccharactercontroller_autostepEnabled(this.ptr)}enableAutostep(I,g,C){A.rawkinematiccharactercontroller_enableAutostep(this.ptr,I,g,C)}disableAutostep(){A.rawkinematiccharactercontroller_disableAutostep(this.ptr)}maxSlopeClimbAngle(){return A.rawkinematiccharactercontroller_maxSlopeClimbAngle(this.ptr)}setMaxSlopeClimbAngle(I){A.rawkinematiccharactercontroller_setMaxSlopeClimbAngle(this.ptr,I)}minSlopeSlideAngle(){return A.rawkinematiccharactercontroller_minSlopeSlideAngle(this.ptr)}setMinSlopeSlideAngle(I){A.rawkinematiccharactercontroller_setMinSlopeSlideAngle(this.ptr,I)}snapToGroundDistance(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.rawkinematiccharactercontroller_snapToGroundDistance(C,this.ptr);var I=G()[C/4+0],g=K()[C/4+1];return 0===I?void 0:g}finally{A.__wbindgen_add_to_stack_pointer(16)}}enableSnapToGround(I){A.rawkinematiccharactercontroller_enableSnapToGround(this.ptr,I)}disableSnapToGround(){A.rawkinematiccharactercontroller_disableSnapToGround(this.ptr)}snapToGroundEnabled(){return 0!==A.rawkinematiccharactercontroller_snapToGroundEnabled(this.ptr)}computeColliderMovement(g,C,B,Q,i,D,o,G,w,k,S){try{a(C,v),a(B,l),a(Q,V),a(D,QA),A.rawkinematiccharactercontroller_computeColliderMovement(this.ptr,g,C.ptr,B.ptr,Q.ptr,i,D.ptr,o,!E(G),E(G)?0:G,w,!E(k),E(k)?0:k,J(S))}finally{I[y++]=void 0}}computedMovement(){const I=A.rawkinematiccharactercontroller_computedMovement(this.ptr);return QA.__wrap(I)}computedGrounded(){return 0!==A.rawkinematiccharactercontroller_computedGrounded(this.ptr)}numComputedCollisions(){return A.rawkinematiccharactercontroller_numComputedCollisions(this.ptr)>>>0}computedCollision(I,g){a(g,H);return 0!==A.rawkinematiccharactercontroller_computedCollision(this.ptr,I,g.ptr)}}class j{static __wrap(A){const I=Object.create(j.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawmultibodyjointset_free(I)}jointType(I){return A.rawmultibodyjointset_jointType(this.ptr,I)>>>0}jointFrameX1(I){const g=A.rawmultibodyjointset_jointFrameX1(this.ptr,I);return _.__wrap(g)}jointFrameX2(I){const g=A.rawmultibodyjointset_jointFrameX2(this.ptr,I);return _.__wrap(g)}jointAnchor1(I){const g=A.rawmultibodyjointset_jointAnchor1(this.ptr,I);return QA.__wrap(g)}jointAnchor2(I){const g=A.rawmultibodyjointset_jointAnchor2(this.ptr,I);return QA.__wrap(g)}jointContactsEnabled(I){return 0!==A.rawmultibodyjointset_jointContactsEnabled(this.ptr,I)}jointSetContactsEnabled(I,g){A.rawmultibodyjointset_jointSetContactsEnabled(this.ptr,I,g)}jointLimitsEnabled(I,g){return 0!==A.rawmultibodyjointset_jointLimitsEnabled(this.ptr,I,g)}jointLimitsMin(I,g){return A.rawmultibodyjointset_jointLimitsMin(this.ptr,I,g)}jointLimitsMax(I,g){return A.rawmultibodyjointset_jointLimitsMax(this.ptr,I,g)}constructor(){const I=A.rawmultibodyjointset_new();return j.__wrap(I)}createJoint(I,g,C,B){a(I,O);return A.rawmultibodyjointset_createJoint(this.ptr,I.ptr,g,C,B)}remove(I,g){A.rawmultibodyjointset_remove(this.ptr,I,g)}contains(I){return 0!==A.rawmultibodyjointset_contains(this.ptr,I)}forEachJointHandle(g){try{A.rawmultibodyjointset_forEachJointHandle(this.ptr,J(g))}finally{I[y++]=void 0}}forEachJointAttachedToRigidBody(g,C){try{A.rawmultibodyjointset_forEachJointAttachedToRigidBody(this.ptr,g,J(C))}finally{I[y++]=void 0}}}class x{static __wrap(A){const I=Object.create(x.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawnarrowphase_free(I)}constructor(){const I=A.rawnarrowphase_new();return x.__wrap(I)}contacts_with(I,g){A.rawnarrowphase_contacts_with(this.ptr,I,Q(g))}contact_pair(I,g){const C=A.rawnarrowphase_contact_pair(this.ptr,I,g);return 0===C?void 0:e.__wrap(C)}intersections_with(I,g){A.rawnarrowphase_intersections_with(this.ptr,I,Q(g))}intersection_pair(I,g){return 0!==A.rawnarrowphase_intersection_pair(this.ptr,I,g)}}class f{static __wrap(A){const I=Object.create(f.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawphysicspipeline_free(I)}constructor(){const I=A.rawphysicspipeline_new();return f.__wrap(I)}step(I,g,C,B,Q,E,i,D,o,G){a(I,QA),a(g,Z),a(C,b),a(B,Y),a(Q,x),a(E,v),a(i,l),a(D,n),a(o,j),a(G,L),A.rawphysicspipeline_step(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,E.ptr,i.ptr,D.ptr,o.ptr,G.ptr)}stepWithEvents(I,g,C,B,E,i,D,o,G,w,k,S,M,K){a(I,QA),a(g,Z),a(C,b),a(B,Y),a(E,x),a(i,v),a(D,l),a(o,n),a(G,j),a(w,L),a(k,T),A.rawphysicspipeline_stepWithEvents(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,E.ptr,i.ptr,D.ptr,o.ptr,G.ptr,w.ptr,k.ptr,Q(S),Q(M),Q(K))}}class m{static __wrap(A){const I=Object.create(m.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawpointcolliderprojection_free(I)}colliderHandle(){return A.rawpointcolliderprojection_colliderHandle(this.ptr)}point(){const I=A.rawkinematiccharactercontroller_computedMovement(this.ptr);return QA.__wrap(I)}isInside(){return 0!==A.rawkinematiccharactercontroller_computedGrounded(this.ptr)}featureType(){return A.rawpointcolliderprojection_featureType(this.ptr)>>>0}featureId(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.rawpointcolliderprojection_featureId(C,this.ptr);var I=G()[C/4+0],g=G()[C/4+1];return 0===I?void 0:g>>>0}finally{A.__wbindgen_add_to_stack_pointer(16)}}}class X{static __wrap(A){const I=Object.create(X.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawpointprojection_free(I)}point(){const I=A.rawkinematiccharactercontroller_computedMovement(this.ptr);return QA.__wrap(I)}isInside(){return 0!==A.rawkinematiccharactercontroller_computedGrounded(this.ptr)}}class V{static __wrap(A){const I=Object.create(V.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawquerypipeline_free(I)}constructor(){const I=A.rawquerypipeline_new();return V.__wrap(I)}update(I,g){a(I,v),a(g,l),A.rawquerypipeline_update(this.ptr,I.ptr,g.ptr)}castRay(g,C,B,Q,i,D,o,G,w,k,S){try{a(g,v),a(C,l),a(B,QA),a(Q,QA);const M=A.rawquerypipeline_castRay(this.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,i,D,o,!E(G),E(G)?0:G,!E(w),E(w)?0:w,!E(k),E(k)?0:k,J(S));return 0===M?void 0:z.__wrap(M)}finally{I[y++]=void 0}}castRayAndGetNormal(g,C,B,Q,i,D,o,G,w,k,S){try{a(g,v),a(C,l),a(B,QA),a(Q,QA);const M=A.rawquerypipeline_castRayAndGetNormal(this.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,i,D,o,!E(G),E(G)?0:G,!E(w),E(w)?0:w,!E(k),E(k)?0:k,J(S));return 0===M?void 0:P.__wrap(M)}finally{I[y++]=void 0}}intersectionsWithRay(g,C,B,Q,i,D,o,G,w,k,S,M){try{a(g,v),a(C,l),a(B,QA),a(Q,QA),A.rawquerypipeline_intersectionsWithRay(this.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,i,D,J(o),G,!E(w),E(w)?0:w,!E(k),E(k)?0:k,!E(S),E(S)?0:S,J(M))}finally{I[y++]=void 0,I[y++]=void 0}}intersectionWithShape(g,C,B,Q,i,o,w,k,S,M){try{const h=A.__wbindgen_add_to_stack_pointer(-16);a(g,v),a(C,l),a(B,QA),a(Q,_),a(i,IA),A.rawquerypipeline_intersectionWithShape(h,this.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,i.ptr,o,!E(w),E(w)?0:w,!E(k),E(k)?0:k,!E(S),E(S)?0:S,J(M));var K=G()[h/4+0],U=D()[h/8+1];return 0===K?void 0:U}finally{A.__wbindgen_add_to_stack_pointer(16),I[y++]=void 0}}projectPoint(g,C,B,Q,i,D,o,G,w){try{a(g,v),a(C,l),a(B,QA);const k=A.rawquerypipeline_projectPoint(this.ptr,g.ptr,C.ptr,B.ptr,Q,i,!E(D),E(D)?0:D,!E(o),E(o)?0:o,!E(G),E(G)?0:G,J(w));return 0===k?void 0:m.__wrap(k)}finally{I[y++]=void 0}}projectPointAndGetFeature(g,C,B,Q,i,D,o,G){try{a(g,v),a(C,l),a(B,QA);const w=A.rawquerypipeline_projectPointAndGetFeature(this.ptr,g.ptr,C.ptr,B.ptr,Q,!E(i),E(i)?0:i,!E(D),E(D)?0:D,!E(o),E(o)?0:o,J(G));return 0===w?void 0:m.__wrap(w)}finally{I[y++]=void 0}}intersectionsWithPoint(g,C,B,Q,i,D,o,G,w){try{a(g,v),a(C,l),a(B,QA),A.rawquerypipeline_intersectionsWithPoint(this.ptr,g.ptr,C.ptr,B.ptr,J(Q),i,!E(D),E(D)?0:D,!E(o),E(o)?0:o,!E(G),E(G)?0:G,J(w))}finally{I[y++]=void 0,I[y++]=void 0}}castShape(g,C,B,Q,i,D,o,G,w,k,S,M,K){try{a(g,v),a(C,l),a(B,QA),a(Q,_),a(i,QA),a(D,IA);const U=A.rawquerypipeline_castShape(this.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,i.ptr,D.ptr,o,G,w,!E(k),E(k)?0:k,!E(S),E(S)?0:S,!E(M),E(M)?0:M,J(K));return 0===U?void 0:gA.__wrap(U)}finally{I[y++]=void 0}}intersectionsWithShape(g,C,B,Q,i,D,o,G,w,k,S){try{a(g,v),a(C,l),a(B,QA),a(Q,_),a(i,IA),A.rawquerypipeline_intersectionsWithShape(this.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,i.ptr,J(D),o,!E(G),E(G)?0:G,!E(w),E(w)?0:w,!E(k),E(k)?0:k,J(S))}finally{I[y++]=void 0,I[y++]=void 0}}collidersWithAabbIntersectingAabb(g,C,B){try{a(g,QA),a(C,QA),A.rawquerypipeline_collidersWithAabbIntersectingAabb(this.ptr,g.ptr,C.ptr,J(B))}finally{I[y++]=void 0}}}class P{static __wrap(A){const I=Object.create(P.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawraycolliderintersection_free(I)}colliderHandle(){return A.rawcharactercollision_handle(this.ptr)}normal(){const I=A.rawraycolliderintersection_normal(this.ptr);return QA.__wrap(I)}toi(){return A.rawraycolliderintersection_toi(this.ptr)}featureType(){return A.rawraycolliderintersection_featureType(this.ptr)>>>0}featureId(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.rawraycolliderintersection_featureId(C,this.ptr);var I=G()[C/4+0],g=G()[C/4+1];return 0===I?void 0:g>>>0}finally{A.__wbindgen_add_to_stack_pointer(16)}}}class z{static __wrap(A){const I=Object.create(z.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawraycollidertoi_free(I)}colliderHandle(){return A.rawcharactercollision_handle(this.ptr)}toi(){return A.rawcharactercollision_toi(this.ptr)}}class u{static __wrap(A){const I=Object.create(u.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawrayintersection_free(I)}normal(){const I=A.rawcharactercollision_worldWitness1(this.ptr);return QA.__wrap(I)}toi(){return A.rawcharactercollision_toi(this.ptr)}featureType(){return A.rawrayintersection_featureType(this.ptr)>>>0}featureId(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.rawrayintersection_featureId(C,this.ptr);var I=G()[C/4+0],g=G()[C/4+1];return 0===I?void 0:g>>>0}finally{A.__wbindgen_add_to_stack_pointer(16)}}}class v{static __wrap(A){const I=Object.create(v.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawrigidbodyset_free(I)}rbTranslation(I){const g=A.rawrigidbodyset_rbTranslation(this.ptr,I);return QA.__wrap(g)}rbRotation(I){const g=A.rawrigidbodyset_rbRotation(this.ptr,I);return _.__wrap(g)}rbSleep(I){A.rawrigidbodyset_rbSleep(this.ptr,I)}rbIsSleeping(I){return 0!==A.rawrigidbodyset_rbIsSleeping(this.ptr,I)}rbIsMoving(I){return 0!==A.rawrigidbodyset_rbIsMoving(this.ptr,I)}rbNextTranslation(I){const g=A.rawrigidbodyset_rbNextTranslation(this.ptr,I);return QA.__wrap(g)}rbNextRotation(I){const g=A.rawrigidbodyset_rbNextRotation(this.ptr,I);return _.__wrap(g)}rbSetTranslation(I,g,C,B,Q){A.rawrigidbodyset_rbSetTranslation(this.ptr,I,g,C,B,Q)}rbSetRotation(I,g,C,B,Q,E){A.rawrigidbodyset_rbSetRotation(this.ptr,I,g,C,B,Q,E)}rbSetLinvel(I,g,C){a(g,QA),A.rawrigidbodyset_rbSetLinvel(this.ptr,I,g.ptr,C)}rbSetAngvel(I,g,C){a(g,QA),A.rawrigidbodyset_rbSetAngvel(this.ptr,I,g.ptr,C)}rbSetNextKinematicTranslation(I,g,C,B){A.rawrigidbodyset_rbSetNextKinematicTranslation(this.ptr,I,g,C,B)}rbSetNextKinematicRotation(I,g,C,B,Q){A.rawrigidbodyset_rbSetNextKinematicRotation(this.ptr,I,g,C,B,Q)}rbRecomputeMassPropertiesFromColliders(I,g){a(g,l),A.rawrigidbodyset_rbRecomputeMassPropertiesFromColliders(this.ptr,I,g.ptr)}rbSetAdditionalMass(I,g,C){A.rawrigidbodyset_rbSetAdditionalMass(this.ptr,I,g,C)}rbSetAdditionalMassProperties(I,g,C,B,Q,E){a(C,QA),a(B,QA),a(Q,_),A.rawrigidbodyset_rbSetAdditionalMassProperties(this.ptr,I,g,C.ptr,B.ptr,Q.ptr,E)}rbLinvel(I){const g=A.rawrigidbodyset_rbLinvel(this.ptr,I);return QA.__wrap(g)}rbAngvel(I){const g=A.rawrigidbodyset_rbAngvel(this.ptr,I);return QA.__wrap(g)}rbLockTranslations(I,g,C){A.rawrigidbodyset_rbLockTranslations(this.ptr,I,g,C)}rbSetEnabledTranslations(I,g,C,B,Q){A.rawrigidbodyset_rbSetEnabledTranslations(this.ptr,I,g,C,B,Q)}rbLockRotations(I,g,C){A.rawrigidbodyset_rbLockRotations(this.ptr,I,g,C)}rbSetEnabledRotations(I,g,C,B,Q){A.rawrigidbodyset_rbSetEnabledRotations(this.ptr,I,g,C,B,Q)}rbDominanceGroup(I){return A.rawrigidbodyset_rbDominanceGroup(this.ptr,I)}rbSetDominanceGroup(I,g){A.rawrigidbodyset_rbSetDominanceGroup(this.ptr,I,g)}rbEnableCcd(I,g){A.rawrigidbodyset_rbEnableCcd(this.ptr,I,g)}rbMass(I){return A.rawrigidbodyset_rbMass(this.ptr,I)}rbInvMass(I){return A.rawrigidbodyset_rbInvMass(this.ptr,I)}rbEffectiveInvMass(I){const g=A.rawrigidbodyset_rbEffectiveInvMass(this.ptr,I);return QA.__wrap(g)}rbLocalCom(I){const g=A.rawrigidbodyset_rbLocalCom(this.ptr,I);return QA.__wrap(g)}rbWorldCom(I){const g=A.rawrigidbodyset_rbWorldCom(this.ptr,I);return QA.__wrap(g)}rbInvPrincipalInertiaSqrt(I){const g=A.rawrigidbodyset_rbInvPrincipalInertiaSqrt(this.ptr,I);return QA.__wrap(g)}rbPrincipalInertiaLocalFrame(I){const g=A.rawrigidbodyset_rbPrincipalInertiaLocalFrame(this.ptr,I);return _.__wrap(g)}rbPrincipalInertia(I){const g=A.rawrigidbodyset_rbPrincipalInertia(this.ptr,I);return QA.__wrap(g)}rbEffectiveWorldInvInertiaSqrt(I){const g=A.rawrigidbodyset_rbEffectiveWorldInvInertiaSqrt(this.ptr,I);return $.__wrap(g)}rbEffectiveAngularInertia(I){const g=A.rawrigidbodyset_rbEffectiveAngularInertia(this.ptr,I);return $.__wrap(g)}rbWakeUp(I){A.rawrigidbodyset_rbWakeUp(this.ptr,I)}rbIsCcdEnabled(I){return 0!==A.rawrigidbodyset_rbIsCcdEnabled(this.ptr,I)}rbNumColliders(I){return A.rawrigidbodyset_rbNumColliders(this.ptr,I)>>>0}rbCollider(I,g){return A.rawrigidbodyset_rbCollider(this.ptr,I,g)}rbBodyType(I){return A.rawrigidbodyset_rbBodyType(this.ptr,I)>>>0}rbSetBodyType(I,g,C){A.rawrigidbodyset_rbSetBodyType(this.ptr,I,g,C)}rbIsFixed(I){return 0!==A.rawrigidbodyset_rbIsFixed(this.ptr,I)}rbIsKinematic(I){return 0!==A.rawrigidbodyset_rbIsKinematic(this.ptr,I)}rbIsDynamic(I){return 0!==A.rawrigidbodyset_rbIsDynamic(this.ptr,I)}rbLinearDamping(I){return A.rawrigidbodyset_rbLinearDamping(this.ptr,I)}rbAngularDamping(I){return A.rawrigidbodyset_rbAngularDamping(this.ptr,I)}rbSetLinearDamping(I,g){A.rawrigidbodyset_rbSetLinearDamping(this.ptr,I,g)}rbSetAngularDamping(I,g){A.rawrigidbodyset_rbSetAngularDamping(this.ptr,I,g)}rbSetEnabled(I,g){A.rawrigidbodyset_rbSetEnabled(this.ptr,I,g)}rbIsEnabled(I){return 0!==A.rawrigidbodyset_rbIsEnabled(this.ptr,I)}rbGravityScale(I){return A.rawrigidbodyset_rbGravityScale(this.ptr,I)}rbSetGravityScale(I,g,C){A.rawrigidbodyset_rbSetGravityScale(this.ptr,I,g,C)}rbResetForces(I,g){A.rawrigidbodyset_rbResetForces(this.ptr,I,g)}rbResetTorques(I,g){A.rawrigidbodyset_rbResetTorques(this.ptr,I,g)}rbAddForce(I,g,C){a(g,QA),A.rawrigidbodyset_rbAddForce(this.ptr,I,g.ptr,C)}rbApplyImpulse(I,g,C){a(g,QA),A.rawrigidbodyset_rbApplyImpulse(this.ptr,I,g.ptr,C)}rbAddTorque(I,g,C){a(g,QA),A.rawrigidbodyset_rbAddTorque(this.ptr,I,g.ptr,C)}rbApplyTorqueImpulse(I,g,C){a(g,QA),A.rawrigidbodyset_rbApplyTorqueImpulse(this.ptr,I,g.ptr,C)}rbAddForceAtPoint(I,g,C,B){a(g,QA),a(C,QA),A.rawrigidbodyset_rbAddForceAtPoint(this.ptr,I,g.ptr,C.ptr,B)}rbApplyImpulseAtPoint(I,g,C,B){a(g,QA),a(C,QA),A.rawrigidbodyset_rbApplyImpulseAtPoint(this.ptr,I,g.ptr,C.ptr,B)}rbUserData(I){return A.rawrigidbodyset_rbUserData(this.ptr,I)>>>0}rbSetUserData(I,g){A.rawrigidbodyset_rbSetUserData(this.ptr,I,g)}constructor(){const I=A.rawrigidbodyset_new();return v.__wrap(I)}createRigidBody(I,g,C,B,Q,E,i,D,o,G,w,k,S,M,K,y,J,U,h,N,F,q,R,s){a(g,QA),a(C,_),a(i,QA),a(D,QA),a(o,QA),a(G,QA),a(w,_);return A.rawrigidbodyset_createRigidBody(this.ptr,I,g.ptr,C.ptr,B,Q,E,i.ptr,D.ptr,o.ptr,G.ptr,w.ptr,k,S,M,K,y,J,U,h,N,F,q,R,s)}remove(I,g,C,B,Q){a(g,b),a(C,l),a(B,n),a(Q,j),A.rawrigidbodyset_remove(this.ptr,I,g.ptr,C.ptr,B.ptr,Q.ptr)}len(){return A.rawrigidbodyset_len(this.ptr)>>>0}contains(I){return 0!==A.rawrigidbodyset_contains(this.ptr,I)}forEachRigidBodyHandle(g){try{A.rawrigidbodyset_forEachRigidBodyHandle(this.ptr,J(g))}finally{I[y++]=void 0}}propagateModifiedBodyPositionsToColliders(I){a(I,l),A.rawrigidbodyset_propagateModifiedBodyPositionsToColliders(this.ptr,I.ptr)}}class _{static __wrap(A){const I=Object.create(_.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawrotation_free(I)}constructor(I,g,C,B){const Q=A.rawrotation_new(I,g,C,B);return _.__wrap(Q)}static identity(){const I=A.rawrotation_identity();return _.__wrap(I)}get x(){return A.rawintegrationparameters_dt(this.ptr)}get y(){return A.rawrotation_y(this.ptr)}get z(){return A.rawcharactercollision_toi(this.ptr)}get w(){return A.rawrotation_w(this.ptr)}}class ${static __wrap(A){const I=Object.create($.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawsdpmatrix3_free(I)}elements(){return B(A.rawsdpmatrix3_elements(this.ptr))}}class AA{static __wrap(A){const I=Object.create(AA.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawserializationpipeline_free(I)}constructor(){const I=A.rawserializationpipeline_new();return AA.__wrap(I)}serializeAll(I,g,C,Q,E,i,D,o,G){a(I,QA),a(g,Z),a(C,b),a(Q,Y),a(E,x),a(i,v),a(D,l),a(o,n),a(G,j);return B(A.rawserializationpipeline_serializeAll(this.ptr,I.ptr,g.ptr,C.ptr,Q.ptr,E.ptr,i.ptr,D.ptr,o.ptr,G.ptr))}deserializeAll(I){const g=A.rawserializationpipeline_deserializeAll(this.ptr,Q(I));return 0===g?void 0:d.__wrap(g)}}class IA{static __wrap(A){const I=Object.create(IA.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawshape_free(I)}static cuboid(I,g,C){const B=A.rawshape_cuboid(I,g,C);return IA.__wrap(B)}static roundCuboid(I,g,C,B){const Q=A.rawshape_roundCuboid(I,g,C,B);return IA.__wrap(Q)}static ball(I){const g=A.rawshape_ball(I);return IA.__wrap(g)}static halfspace(I){a(I,QA);const g=A.rawshape_halfspace(I.ptr);return IA.__wrap(g)}static capsule(I,g){const C=A.rawshape_capsule(I,g);return IA.__wrap(C)}static cylinder(I,g){const C=A.rawshape_cylinder(I,g);return IA.__wrap(C)}static roundCylinder(I,g,C){const B=A.rawshape_roundCylinder(I,g,C);return IA.__wrap(B)}static cone(I,g){const 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0:IA.__wrap(B)}static roundConvexHull(I,g){const C=q(I,A.__wbindgen_malloc),B=F,Q=A.rawshape_roundConvexHull(C,B,g);return 0===Q?void 0:IA.__wrap(Q)}static convexMesh(I,g){const C=q(I,A.__wbindgen_malloc),B=F,Q=R(g,A.__wbindgen_malloc),E=F,i=A.rawshape_convexMesh(C,B,Q,E);return 0===i?void 0:IA.__wrap(i)}static roundConvexMesh(I,g,C){const B=q(I,A.__wbindgen_malloc),Q=F,E=R(g,A.__wbindgen_malloc),i=F,D=A.rawshape_roundConvexMesh(B,Q,E,i,C);return 0===D?void 0:IA.__wrap(D)}castShape(I,g,C,B,Q,E,i,D,o){a(I,QA),a(g,_),a(C,QA),a(B,IA),a(Q,QA),a(E,_),a(i,QA);const G=A.rawshape_castShape(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,E.ptr,i.ptr,D,o);return 0===G?void 0:BA.__wrap(G)}intersectsShape(I,g,C,B,Q){a(I,QA),a(g,_),a(C,IA),a(B,QA),a(Q,_);return 0!==A.rawshape_intersectsShape(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q.ptr)}contactShape(I,g,C,B,Q,E){a(I,QA),a(g,_),a(C,IA),a(B,QA),a(Q,_);const i=A.rawshape_contactShape(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q.ptr,E);return 0===i?void 0:CA.__wrap(i)}containsPoint(I,g,C){a(I,QA),a(g,_),a(C,QA);return 0!==A.rawshape_containsPoint(this.ptr,I.ptr,g.ptr,C.ptr)}projectPoint(I,g,C,B){a(I,QA),a(g,_),a(C,QA);const Q=A.rawshape_projectPoint(this.ptr,I.ptr,g.ptr,C.ptr,B);return X.__wrap(Q)}intersectsRay(I,g,C,B,Q){a(I,QA),a(g,_),a(C,QA),a(B,QA);return 0!==A.rawshape_intersectsRay(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q)}castRay(I,g,C,B,Q,E){a(I,QA),a(g,_),a(C,QA),a(B,QA);return A.rawshape_castRay(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q,E)}castRayAndGetNormal(I,g,C,B,Q,E){a(I,QA),a(g,_),a(C,QA),a(B,QA);const i=A.rawshape_castRayAndGetNormal(this.ptr,I.ptr,g.ptr,C.ptr,B.ptr,Q,E);return 0===i?void 0:u.__wrap(i)}}class gA{static __wrap(A){const I=Object.create(gA.prototype);return I.ptr=A,I}__destroy_into_raw(){const A=this.ptr;return this.ptr=0,A}free(){const I=this.__destroy_into_raw();A.__wbg_rawshapecollidertoi_free(I)}colliderHandle(){return A.rawcharactercollision_handle(this.ptr)}toi(){return 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wA{constructor(A){this.elements=A}get m11(){return this.elements[0]}get m12(){return this.elements[1]}get m21(){return this.m12}get m13(){return this.elements[2]}get m31(){return this.m13}get m22(){return this.elements[3]}get m23(){return this.elements[4]}get m32(){return this.m23}get m33(){return this.elements[5]}}class kA{static fromRaw(A){const I=new wA(A.elements());return A.free(),I}}var SA,aA,MA,KA,yA,JA,UA,hA,NA,FA,qA,RA;!function(A){A[A.Dynamic=0]=\"Dynamic\",A[A.Fixed=1]=\"Fixed\",A[A.KinematicPositionBased=2]=\"KinematicPositionBased\",A[A.KinematicVelocityBased=3]=\"KinematicVelocityBased\"}(SA||(SA={}));class sA{constructor(A,I,g){this.rawSet=A,this.colliderSet=I,this.handle=g}finalizeDeserialization(A){this.colliderSet=A}isValid(){return this.rawSet.contains(this.handle)}lockTranslations(A,I){return this.rawSet.rbLockTranslations(this.handle,A,I)}lockRotations(A,I){return this.rawSet.rbLockRotations(this.handle,A,I)}setEnabledTranslations(A,I,g,C){return this.rawSet.rbSetEnabledTranslations(this.handle,A,I,g,C)}restrictTranslations(A,I,g,C){this.setEnabledTranslations(A,I,g,C)}setEnabledRotations(A,I,g,C){return this.rawSet.rbSetEnabledRotations(this.handle,A,I,g,C)}restrictRotations(A,I,g,C){this.setEnabledRotations(A,I,g,C)}dominanceGroup(){return this.rawSet.rbDominanceGroup(this.handle)}setDominanceGroup(A){this.rawSet.rbSetDominanceGroup(this.handle,A)}enableCcd(A){this.rawSet.rbEnableCcd(this.handle,A)}translation(){let A=this.rawSet.rbTranslation(this.handle);return DA.fromRaw(A)}rotation(){let A=this.rawSet.rbRotation(this.handle);return GA.fromRaw(A)}nextTranslation(){let A=this.rawSet.rbNextTranslation(this.handle);return DA.fromRaw(A)}nextRotation(){let A=this.rawSet.rbNextRotation(this.handle);return GA.fromRaw(A)}setTranslation(A,I){this.rawSet.rbSetTranslation(this.handle,A.x,A.y,A.z,I)}setLinvel(A,I){let g=DA.intoRaw(A);this.rawSet.rbSetLinvel(this.handle,g,I),g.free()}gravityScale(){return this.rawSet.rbGravityScale(this.handle)}setGravityScale(A,I){this.rawSet.rbSetGravityScale(this.handle,A,I)}setRotation(A,I){this.rawSet.rbSetRotation(this.handle,A.x,A.y,A.z,A.w,I)}setAngvel(A,I){let g=DA.intoRaw(A);this.rawSet.rbSetAngvel(this.handle,g,I),g.free()}setNextKinematicTranslation(A){this.rawSet.rbSetNextKinematicTranslation(this.handle,A.x,A.y,A.z)}setNextKinematicRotation(A){this.rawSet.rbSetNextKinematicRotation(this.handle,A.x,A.y,A.z,A.w)}linvel(){return DA.fromRaw(this.rawSet.rbLinvel(this.handle))}angvel(){return DA.fromRaw(this.rawSet.rbAngvel(this.handle))}mass(){return this.rawSet.rbMass(this.handle)}effectiveInvMass(){return DA.fromRaw(this.rawSet.rbEffectiveInvMass(this.handle))}invMass(){return this.rawSet.rbInvMass(this.handle)}localCom(){return DA.fromRaw(this.rawSet.rbLocalCom(this.handle))}worldCom(){return DA.fromRaw(this.rawSet.rbWorldCom(this.handle))}invPrincipalInertiaSqrt(){return DA.fromRaw(this.rawSet.rbInvPrincipalInertiaSqrt(this.handle))}principalInertia(){return DA.fromRaw(this.rawSet.rbPrincipalInertia(this.handle))}principalInertiaLocalFrame(){return GA.fromRaw(this.rawSet.rbPrincipalInertiaLocalFrame(this.handle))}effectiveWorldInvInertiaSqrt(){return kA.fromRaw(this.rawSet.rbEffectiveWorldInvInertiaSqrt(this.handle))}effectiveAngularInertia(){return kA.fromRaw(this.rawSet.rbEffectiveAngularInertia(this.handle))}sleep(){this.rawSet.rbSleep(this.handle)}wakeUp(){this.rawSet.rbWakeUp(this.handle)}isCcdEnabled(){return this.rawSet.rbIsCcdEnabled(this.handle)}numColliders(){return this.rawSet.rbNumColliders(this.handle)}collider(A){return this.colliderSet.get(this.rawSet.rbCollider(this.handle,A))}setEnabled(A){this.rawSet.rbSetEnabled(this.handle,A)}isEnabled(){return this.rawSet.rbIsEnabled(this.handle)}bodyType(){return this.rawSet.rbBodyType(this.handle)}setBodyType(A,I){return this.rawSet.rbSetBodyType(this.handle,A,I)}isSleeping(){return this.rawSet.rbIsSleeping(this.handle)}isMoving(){return this.rawSet.rbIsMoving(this.handle)}isFixed(){return this.rawSet.rbIsFixed(this.handle)}isKinematic(){return this.rawSet.rbIsKinematic(this.handle)}isDynamic(){return this.rawSet.rbIsDynamic(this.handle)}linearDamping(){return this.rawSet.rbLinearDamping(this.handle)}angularDamping(){return this.rawSet.rbAngularDamping(this.handle)}setLinearDamping(A){this.rawSet.rbSetLinearDamping(this.handle,A)}recomputeMassPropertiesFromColliders(){this.rawSet.rbRecomputeMassPropertiesFromColliders(this.handle,this.colliderSet.raw)}setAdditionalMass(A,I){this.rawSet.rbSetAdditionalMass(this.handle,A,I)}setAdditionalMassProperties(A,I,g,C,B){let Q=DA.intoRaw(I),E=DA.intoRaw(g),i=GA.intoRaw(C);this.rawSet.rbSetAdditionalMassProperties(this.handle,A,Q,E,i,B),Q.free(),E.free(),i.free()}setAngularDamping(A){this.rawSet.rbSetAngularDamping(this.handle,A)}resetForces(A){this.rawSet.rbResetForces(this.handle,A)}resetTorques(A){this.rawSet.rbResetTorques(this.handle,A)}addForce(A,I){const g=DA.intoRaw(A);this.rawSet.rbAddForce(this.handle,g,I),g.free()}applyImpulse(A,I){const g=DA.intoRaw(A);this.rawSet.rbApplyImpulse(this.handle,g,I),g.free()}addTorque(A,I){const g=DA.intoRaw(A);this.rawSet.rbAddTorque(this.handle,g,I),g.free()}applyTorqueImpulse(A,I){const g=DA.intoRaw(A);this.rawSet.rbApplyTorqueImpulse(this.handle,g,I),g.free()}addForceAtPoint(A,I,g){const C=DA.intoRaw(A),B=DA.intoRaw(I);this.rawSet.rbAddForceAtPoint(this.handle,C,B,g),C.free(),B.free()}applyImpulseAtPoint(A,I,g){const C=DA.intoRaw(A),B=DA.intoRaw(I);this.rawSet.rbApplyImpulseAtPoint(this.handle,C,B,g),C.free(),B.free()}}class cA{constructor(A){this.enabled=!0,this.status=A,this.translation=DA.zeros(),this.rotation=GA.identity(),this.gravityScale=1,this.linvel=DA.zeros(),this.mass=0,this.massOnly=!1,this.centerOfMass=DA.zeros(),this.translationsEnabledX=!0,this.translationsEnabledY=!0,this.angvel=DA.zeros(),this.principalAngularInertia=DA.zeros(),this.angularInertiaLocalFrame=GA.identity(),this.translationsEnabledZ=!0,this.rotationsEnabledX=!0,this.rotationsEnabledY=!0,this.rotationsEnabledZ=!0,this.linearDamping=0,this.angularDamping=0,this.canSleep=!0,this.sleeping=!1,this.ccdEnabled=!1,this.dominanceGroup=0}static dynamic(){return new cA(SA.Dynamic)}static kinematicPositionBased(){return new cA(SA.KinematicPositionBased)}static kinematicVelocityBased(){return new cA(SA.KinematicVelocityBased)}static fixed(){return new cA(SA.Fixed)}static newDynamic(){return new cA(SA.Dynamic)}static newKinematicPositionBased(){return new cA(SA.KinematicPositionBased)}static newKinematicVelocityBased(){return new cA(SA.KinematicVelocityBased)}static newStatic(){return new cA(SA.Fixed)}setDominanceGroup(A){return this.dominanceGroup=A,this}setEnabled(A){return this.enabled=A,this}setTranslation(A,I,g){if(\"number\"!=typeof A||\"number\"!=typeof I||\"number\"!=typeof g)throw TypeError(\"The translation components must be numbers.\");return this.translation={x:A,y:I,z:g},this}setRotation(A){return GA.copy(this.rotation,A),this}setGravityScale(A){return this.gravityScale=A,this}setAdditionalMass(A){return this.mass=A,this.massOnly=!0,this}setLinvel(A,I,g){if(\"number\"!=typeof A||\"number\"!=typeof I||\"number\"!=typeof g)throw TypeError(\"The linvel components must be numbers.\");return this.linvel={x:A,y:I,z:g},this}setAngvel(A){return DA.copy(this.angvel,A),this}setAdditionalMassProperties(A,I,g,C){return this.mass=A,DA.copy(this.centerOfMass,I),DA.copy(this.principalAngularInertia,g),GA.copy(this.angularInertiaLocalFrame,C),this.massOnly=!1,this}enabledTranslations(A,I,g){return this.translationsEnabledX=A,this.translationsEnabledY=I,this.translationsEnabledZ=g,this}restrictTranslations(A,I,g){return this.enabledTranslations(A,I,g)}lockTranslations(){return this.enabledTranslations(!1,!1,!1)}enabledRotations(A,I,g){return this.rotationsEnabledX=A,this.rotationsEnabledY=I,this.rotationsEnabledZ=g,this}restrictRotations(A,I,g){return this.enabledRotations(A,I,g)}lockRotations(){return this.restrictRotations(!1,!1,!1)}setLinearDamping(A){return this.linearDamping=A,this}setAngularDamping(A){return this.angularDamping=A,this}setCanSleep(A){return this.canSleep=A,this}setSleeping(A){return this.sleeping=A,this}setCcdEnabled(A){return this.ccdEnabled=A,this}setUserData(A){return this.userData=A,this}}class YA{constructor(){this.fconv=new Float64Array(1),this.uconv=new Uint32Array(this.fconv.buffer),this.data=new Array,this.size=0}set(A,I){let g=this.index(A);for(;this.data.length<=g;)this.data.push(null);null==this.data[g]&&(this.size+=1),this.data[g]=I}len(){return this.size}delete(A){let I=this.index(A);I<this.data.length&&(null!=this.data[I]&&(this.size-=1),this.data[I]=null)}clear(){this.data=new Array}get(A){let I=this.index(A);return I<this.data.length?this.data[I]:null}forEach(A){for(const I of this.data)null!=I&&A(I)}getAll(){return this.data.filter((A=>null!=A))}index(A){return this.fconv[0]=A,this.uconv[0]}}class LA{constructor(A){this.raw=A||new v,this.map=new YA,A&&A.forEachRigidBodyHandle((I=>{this.map.set(I,new sA(A,null,I))}))}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}finalizeDeserialization(A){this.map.forEach((I=>I.finalizeDeserialization(A)))}createRigidBody(A,I){let g=DA.intoRaw(I.translation),C=GA.intoRaw(I.rotation),B=DA.intoRaw(I.linvel),Q=DA.intoRaw(I.centerOfMass),E=DA.intoRaw(I.angvel),i=DA.intoRaw(I.principalAngularInertia),D=GA.intoRaw(I.angularInertiaLocalFrame),o=this.raw.createRigidBody(I.enabled,g,C,I.gravityScale,I.mass,I.massOnly,Q,B,E,i,D,I.translationsEnabledX,I.translationsEnabledY,I.translationsEnabledZ,I.rotationsEnabledX,I.rotationsEnabledY,I.rotationsEnabledZ,I.linearDamping,I.angularDamping,I.status,I.canSleep,I.sleeping,I.ccdEnabled,I.dominanceGroup);g.free(),C.free(),B.free(),Q.free(),E.free(),i.free(),D.free();const G=new sA(this.raw,A,o);return G.userData=I.userData,this.map.set(o,G),G}remove(A,I,g,C,B){for(let I=0;I<this.raw.rbNumColliders(A);I+=1)g.unmap(this.raw.rbCollider(A,I));C.forEachJointHandleAttachedToRigidBody(A,(A=>C.unmap(A))),B.forEachJointHandleAttachedToRigidBody(A,(A=>B.unmap(A))),this.raw.remove(A,I.raw,g.raw,C.raw,B.raw),this.map.delete(A)}len(){return this.map.len()}contains(A){return null!=this.get(A)}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}forEachActiveRigidBody(A,I){A.forEachActiveRigidBodyHandle((A=>{I(this.get(A))}))}getAll(){return this.map.getAll()}}class HA{constructor(A){this.raw=A||new Z}free(){this.raw&&this.raw.free(),this.raw=void 0}get dt(){return this.raw.dt}get erp(){return this.raw.erp}get allowedLinearError(){return this.raw.allowedLinearError}get predictionDistance(){return this.raw.predictionDistance}get maxVelocityIterations(){return this.raw.maxVelocityIterations}get maxVelocityFrictionIterations(){return this.raw.maxVelocityFrictionIterations}get maxStabilizationIterations(){return this.raw.maxStabilizationIterations}get minIslandSize(){return this.raw.minIslandSize}get maxCcdSubsteps(){return this.raw.maxCcdSubsteps}set dt(A){this.raw.dt=A}set erp(A){this.raw.erp=A}set allowedLinearError(A){this.raw.allowedLinearError=A}set predictionDistance(A){this.raw.predictionDistance=A}set maxVelocityIterations(A){this.raw.maxVelocityIterations=A}set maxVelocityFrictionIterations(A){this.raw.maxVelocityFrictionIterations=A}set maxStabilizationIterations(A){this.raw.maxStabilizationIterations=A}set minIslandSize(A){this.raw.minIslandSize=A}set maxCcdSubsteps(A){this.raw.maxCcdSubsteps=A}}!function(A){A[A.Revolute=0]=\"Revolute\",A[A.Fixed=1]=\"Fixed\",A[A.Prismatic=2]=\"Prismatic\",A[A.Spherical=3]=\"Spherical\"}(aA||(aA={})),function(A){A[A.AccelerationBased=0]=\"AccelerationBased\",A[A.ForceBased=1]=\"ForceBased\"}(MA||(MA={}));class lA{constructor(A,I,g){this.rawSet=A,this.bodySet=I,this.handle=g}static newTyped(A,I,g){switch(A.jointType(g)){case aA.Revolute:return new rA(A,I,g);case aA.Prismatic:return new eA(A,I,g);case aA.Fixed:return new pA(A,I,g);case aA.Spherical:return new dA(A,I,g);default:return new lA(A,I,g)}}finalizeDeserialization(A){this.bodySet=A}isValid(){return this.rawSet.contains(this.handle)}body1(){return this.bodySet.get(this.rawSet.jointBodyHandle1(this.handle))}body2(){return this.bodySet.get(this.rawSet.jointBodyHandle2(this.handle))}type(){return this.rawSet.jointType(this.handle)}frameX1(){return GA.fromRaw(this.rawSet.jointFrameX1(this.handle))}frameX2(){return GA.fromRaw(this.rawSet.jointFrameX2(this.handle))}anchor1(){return DA.fromRaw(this.rawSet.jointAnchor1(this.handle))}anchor2(){return DA.fromRaw(this.rawSet.jointAnchor2(this.handle))}setAnchor1(A){const I=DA.intoRaw(A);this.rawSet.jointSetAnchor1(this.handle,I),I.free()}setAnchor2(A){const I=DA.intoRaw(A);this.rawSet.jointSetAnchor2(this.handle,I),I.free()}setContactsEnabled(A){this.rawSet.jointSetContactsEnabled(this.handle,A)}contactsEnabled(){return this.rawSet.jointContactsEnabled(this.handle)}}class tA extends lA{limitsEnabled(){return this.rawSet.jointLimitsEnabled(this.handle,this.rawAxis())}limitsMin(){return this.rawSet.jointLimitsMin(this.handle,this.rawAxis())}limitsMax(){return this.rawSet.jointLimitsMax(this.handle,this.rawAxis())}setLimits(A,I){this.rawSet.jointSetLimits(this.handle,this.rawAxis(),A,I)}configureMotorModel(A){this.rawSet.jointConfigureMotorModel(this.handle,this.rawAxis(),A)}configureMotorVelocity(A,I){this.rawSet.jointConfigureMotorVelocity(this.handle,this.rawAxis(),A,I)}configureMotorPosition(A,I,g){this.rawSet.jointConfigureMotorPosition(this.handle,this.rawAxis(),A,I,g)}configureMotor(A,I,g,C){this.rawSet.jointConfigureMotor(this.handle,this.rawAxis(),A,I,g,C)}}class pA extends lA{}class eA extends tA{rawAxis(){return c.X}}class rA extends tA{rawAxis(){return c.AngX}}class dA extends lA{}class TA{constructor(){}static fixed(A,I,g,C){let B=new TA;return B.anchor1=A,B.anchor2=g,B.frame1=I,B.frame2=C,B.jointType=aA.Fixed,B}static spherical(A,I){let g=new TA;return g.anchor1=A,g.anchor2=I,g.jointType=aA.Spherical,g}static prismatic(A,I,g){let C=new TA;return C.anchor1=A,C.anchor2=I,C.axis=g,C.jointType=aA.Prismatic,C}static revolute(A,I,g){let C=new TA;return C.anchor1=A,C.anchor2=I,C.axis=g,C.jointType=aA.Revolute,C}intoRaw(){let A,I,g=DA.intoRaw(this.anchor1),C=DA.intoRaw(this.anchor2),B=!1,Q=0,E=0;switch(this.jointType){case aA.Fixed:let i=GA.intoRaw(this.frame1),D=GA.intoRaw(this.frame2);I=O.fixed(g,i,C,D),i.free(),D.free();break;case aA.Prismatic:A=DA.intoRaw(this.axis),this.limitsEnabled&&(B=!0,Q=this.limits[0],E=this.limits[1]),I=O.prismatic(g,C,A,B,Q,E),A.free();break;case aA.Spherical:I=O.spherical(g,C);break;case aA.Revolute:A=DA.intoRaw(this.axis),I=O.revolute(g,C,A),A.free()}return g.free(),C.free(),I}}class OA{constructor(A){this.raw=A||new n,this.map=new YA,A&&A.forEachJointHandle((I=>{this.map.set(I,lA.newTyped(A,null,I))}))}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}finalizeDeserialization(A){this.map.forEach((I=>I.finalizeDeserialization(A)))}createJoint(A,I,g,C,B){const Q=I.intoRaw(),E=this.raw.createJoint(Q,g,C,B);Q.free();let i=lA.newTyped(this.raw,A,E);return this.map.set(E,i),i}remove(A,I){this.raw.remove(A,I),this.unmap(A)}forEachJointHandleAttachedToRigidBody(A,I){this.raw.forEachJointAttachedToRigidBody(A,I)}unmap(A){this.map.delete(A)}len(){return this.map.len()}contains(A){return null!=this.get(A)}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}getAll(){return this.map.getAll()}}class nA{constructor(A,I){this.rawSet=A,this.handle=I}static newTyped(A,I){switch(A.jointType(I)){case aA.Revolute:return new jA(A,I);case aA.Prismatic:return new WA(A,I);case aA.Fixed:return new bA(A,I);case aA.Spherical:return new xA(A,I);default:return new nA(A,I)}}isValid(){return this.rawSet.contains(this.handle)}setContactsEnabled(A){this.rawSet.jointSetContactsEnabled(this.handle,A)}contactsEnabled(){return this.rawSet.jointContactsEnabled(this.handle)}}class ZA extends nA{}class bA extends nA{}class WA extends ZA{rawAxis(){return c.X}}class jA extends ZA{rawAxis(){return c.AngX}}class xA extends nA{}class fA{constructor(A){this.raw=A||new j,this.map=new YA,A&&A.forEachJointHandle((A=>{this.map.set(A,nA.newTyped(this.raw,A))}))}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}createJoint(A,I,g,C){const B=A.intoRaw(),Q=this.raw.createJoint(B,I,g,C);B.free();let E=nA.newTyped(this.raw,Q);return this.map.set(Q,E),E}remove(A,I){this.raw.remove(A,I),this.map.delete(A)}unmap(A){this.map.delete(A)}len(){return this.map.len()}contains(A){return null!=this.get(A)}get(A){return this.map.get(A)}forEach(A){this.map.forEach(A)}forEachJointHandleAttachedToRigidBody(A,I){this.raw.forEachJointAttachedToRigidBody(A,I)}getAll(){return this.map.getAll()}}!function(A){A[A.Average=0]=\"Average\",A[A.Min=1]=\"Min\",A[A.Multiply=2]=\"Multiply\",A[A.Max=3]=\"Max\"}(KA||(KA={}));class mA{constructor(A){this.raw=A||new L}free(){this.raw&&this.raw.free(),this.raw=void 0}}class XA{constructor(A){this.raw=A||new b}free(){this.raw&&this.raw.free(),this.raw=void 0}forEachActiveRigidBodyHandle(A){this.raw.forEachActiveRigidBodyHandle(A)}}class VA{constructor(A){this.raw=A||new Y}free(){this.raw&&this.raw.free(),this.raw=void 0}}class PA{constructor(A){this.raw=A||new x,this.tempManifold=new zA(null)}free(){this.raw&&this.raw.free(),this.raw=void 0}contactsWith(A,I){this.raw.contacts_with(A,I)}intersectionsWith(A,I){this.raw.intersections_with(A,I)}contactPair(A,I,g){const C=this.raw.contact_pair(A,I);if(C){const I=C.collider1()!=A;let B;for(B=0;B<C.numContactManifolds();++B)this.tempManifold.raw=C.contactManifold(B),this.tempManifold.raw&&g(this.tempManifold,I),this.tempManifold.free();C.free()}}intersectionPair(A,I){return this.raw.intersection_pair(A,I)}}class zA{constructor(A){this.raw=A}free(){this.raw&&this.raw.free(),this.raw=void 0}normal(){return DA.fromRaw(this.raw.normal())}localNormal1(){return DA.fromRaw(this.raw.local_n1())}localNormal2(){return DA.fromRaw(this.raw.local_n2())}subshape1(){return this.raw.subshape1()}subshape2(){return this.raw.subshape2()}numContacts(){return this.raw.num_contacts()}localContactPoint1(A){return DA.fromRaw(this.raw.contact_local_p1(A))}localContactPoint2(A){return DA.fromRaw(this.raw.contact_local_p2(A))}contactDist(A){return this.raw.contact_dist(A)}contactFid1(A){return this.raw.contact_fid1(A)}contactFid2(A){return this.raw.contact_fid2(A)}contactImpulse(A){return this.raw.contact_impulse(A)}contactTangentImpulseX(A){return this.raw.contact_tangent_impulse_x(A)}contactTangentImpulseY(A){return this.raw.contact_tangent_impulse_y(A)}numSolverContacts(){return this.raw.num_solver_contacts()}solverContactPoint(A){return DA.fromRaw(this.raw.solver_contact_point(A))}solverContactDist(A){return this.raw.solver_contact_dist(A)}solverContactFriction(A){return this.raw.solver_contact_friction(A)}solverContactRestitution(A){return this.raw.solver_contact_restitution(A)}solverContactTangentVelocity(A){return DA.fromRaw(this.raw.solver_contact_tangent_velocity(A))}}class uA{constructor(A,I,g,C,B){this.distance=A,this.point1=I,this.point2=g,this.normal1=C,this.normal2=B}static fromRaw(A){if(!A)return null;const I=new uA(A.distance(),DA.fromRaw(A.point1()),DA.fromRaw(A.point2()),DA.fromRaw(A.normal1()),DA.fromRaw(A.normal2()));return A.free(),I}}!function(A){A[A.Vertex=0]=\"Vertex\",A[A.Edge=1]=\"Edge\",A[A.Face=2]=\"Face\",A[A.Unknown=3]=\"Unknown\"}(yA||(yA={}));class vA{constructor(A,I){this.point=A,this.isInside=I}static fromRaw(A){if(!A)return null;const I=new vA(DA.fromRaw(A.point()),A.isInside());return A.free(),I}}class _A{constructor(A,I,g,C,B){this.featureType=yA.Unknown,this.featureId=void 0,this.collider=A,this.point=I,this.isInside=g,void 0!==B&&(this.featureId=B),void 0!==C&&(this.featureType=C)}static fromRaw(A,I){if(!I)return null;const g=new _A(A.get(I.colliderHandle()),DA.fromRaw(I.point()),I.isInside(),I.featureType(),I.featureId());return I.free(),g}}class $A{constructor(A,I){this.origin=A,this.dir=I}pointAt(A){return{x:this.origin.x+this.dir.x*A,y:this.origin.y+this.dir.y*A,z:this.origin.z+this.dir.z*A}}}class AI{constructor(A,I,g,C){this.featureType=yA.Unknown,this.featureId=void 0,this.toi=A,this.normal=I,void 0!==C&&(this.featureId=C),void 0!==g&&(this.featureType=g)}static fromRaw(A){if(!A)return null;const I=new AI(A.toi(),DA.fromRaw(A.normal()),A.featureType(),A.featureId());return A.free(),I}}class II{constructor(A,I,g,C,B){this.featureType=yA.Unknown,this.featureId=void 0,this.collider=A,this.toi=I,this.normal=g,void 0!==B&&(this.featureId=B),void 0!==C&&(this.featureType=C)}static fromRaw(A,I){if(!I)return null;const g=new II(A.get(I.colliderHandle()),I.toi(),DA.fromRaw(I.normal()),I.featureType(),I.featureId());return I.free(),g}}class gI{constructor(A,I){this.collider=A,this.toi=I}static fromRaw(A,I){if(!I)return null;const g=new gI(A.get(I.colliderHandle()),I.toi());return I.free(),g}}class CI{constructor(A,I,g,C,B){this.toi=A,this.witness1=I,this.witness2=g,this.normal1=C,this.normal2=B}static fromRaw(A,I){if(!I)return null;const g=new CI(I.toi(),DA.fromRaw(I.witness1()),DA.fromRaw(I.witness2()),DA.fromRaw(I.normal1()),DA.fromRaw(I.normal2()));return I.free(),g}}class BI extends CI{constructor(A,I,g,C,B,Q){super(I,g,C,B,Q),this.collider=A}static fromRaw(A,I){if(!I)return null;const g=new BI(A.get(I.colliderHandle()),I.toi(),DA.fromRaw(I.witness1()),DA.fromRaw(I.witness2()),DA.fromRaw(I.normal1()),DA.fromRaw(I.normal2()));return I.free(),g}}class QI{static fromRaw(A,I){const g=A.coShapeType(I);let C,B,Q,E,i,D,o;switch(g){case JA.Ball:return new EI(A.coRadius(I));case JA.Cuboid:return C=A.coHalfExtents(I),new DI(C.x,C.y,C.z);case JA.RoundCuboid:return C=A.coHalfExtents(I),B=A.coRoundRadius(I),new oI(C.x,C.y,C.z,B);case JA.Capsule:return i=A.coHalfHeight(I),D=A.coRadius(I),new GI(i,D);case JA.Segment:return Q=A.coVertices(I),new wI(DA.new(Q[0],Q[1],Q[2]),DA.new(Q[3],Q[4],Q[5]));case JA.Polyline:return Q=A.coVertices(I),E=A.coIndices(I),new aI(Q,E);case JA.Triangle:return Q=A.coVertices(I),new kI(DA.new(Q[0],Q[1],Q[2]),DA.new(Q[3],Q[4],Q[5]),DA.new(Q[6],Q[7],Q[8]));case JA.RoundTriangle:return Q=A.coVertices(I),B=A.coRoundRadius(I),new SI(DA.new(Q[0],Q[1],Q[2]),DA.new(Q[3],Q[4],Q[5]),DA.new(Q[6],Q[7],Q[8]),B);case JA.HalfSpace:return o=DA.fromRaw(A.coHalfspaceNormal(I)),new iI(o);case JA.TriMesh:return Q=A.coVertices(I),E=A.coIndices(I),new MI(Q,E);case JA.HeightField:const G=A.coHeightfieldScale(I),w=A.coHeightfieldHeights(I),k=A.coHeightfieldNRows(I),S=A.coHeightfieldNCols(I);return new JI(k,S,w,G);case JA.ConvexPolyhedron:return Q=A.coVertices(I),E=A.coIndices(I),new KI(Q,E);case JA.RoundConvexPolyhedron:return Q=A.coVertices(I),E=A.coIndices(I),B=A.coRoundRadius(I),new yI(Q,E,B);case JA.Cylinder:return i=A.coHalfHeight(I),D=A.coRadius(I),new UI(i,D);case JA.RoundCylinder:return i=A.coHalfHeight(I),D=A.coRadius(I),B=A.coRoundRadius(I),new hI(i,D,B);case JA.Cone:return i=A.coHalfHeight(I),D=A.coRadius(I),new NI(i,D);case JA.RoundCone:return i=A.coHalfHeight(I),D=A.coRadius(I),B=A.coRoundRadius(I),new FI(i,D,B);default:throw new Error(\"unknown shape type: \"+g)}}castShape(A,I,g,C,B,Q,E,i,D){let o=DA.intoRaw(A),G=GA.intoRaw(I),w=DA.intoRaw(g),k=DA.intoRaw(B),S=GA.intoRaw(Q),a=DA.intoRaw(E),M=this.intoRaw(),K=C.intoRaw(),y=CI.fromRaw(null,M.castShape(o,G,w,K,k,S,a,i,D));return o.free(),G.free(),w.free(),k.free(),S.free(),a.free(),M.free(),K.free(),y}intersectsShape(A,I,g,C,B){let Q=DA.intoRaw(A),E=GA.intoRaw(I),i=DA.intoRaw(C),D=GA.intoRaw(B),o=this.intoRaw(),G=g.intoRaw(),w=o.intersectsShape(Q,E,G,i,D);return Q.free(),E.free(),i.free(),D.free(),o.free(),G.free(),w}contactShape(A,I,g,C,B,Q){let E=DA.intoRaw(A),i=GA.intoRaw(I),D=DA.intoRaw(C),o=GA.intoRaw(B),G=this.intoRaw(),w=g.intoRaw(),k=uA.fromRaw(G.contactShape(E,i,w,D,o,Q));return E.free(),i.free(),D.free(),o.free(),G.free(),w.free(),k}containsPoint(A,I,g){let C=DA.intoRaw(A),B=GA.intoRaw(I),Q=DA.intoRaw(g),E=this.intoRaw(),i=E.containsPoint(C,B,Q);return C.free(),B.free(),Q.free(),E.free(),i}projectPoint(A,I,g,C){let B=DA.intoRaw(A),Q=GA.intoRaw(I),E=DA.intoRaw(g),i=this.intoRaw(),D=vA.fromRaw(i.projectPoint(B,Q,E,C));return B.free(),Q.free(),E.free(),i.free(),D}intersectsRay(A,I,g,C){let B=DA.intoRaw(I),Q=GA.intoRaw(g),E=DA.intoRaw(A.origin),i=DA.intoRaw(A.dir),D=this.intoRaw(),o=D.intersectsRay(B,Q,E,i,C);return B.free(),Q.free(),E.free(),i.free(),D.free(),o}castRay(A,I,g,C,B){let Q=DA.intoRaw(I),E=GA.intoRaw(g),i=DA.intoRaw(A.origin),D=DA.intoRaw(A.dir),o=this.intoRaw(),G=o.castRay(Q,E,i,D,C,B);return Q.free(),E.free(),i.free(),D.free(),o.free(),G}castRayAndGetNormal(A,I,g,C,B){let Q=DA.intoRaw(I),E=GA.intoRaw(g),i=DA.intoRaw(A.origin),D=DA.intoRaw(A.dir),o=this.intoRaw(),G=AI.fromRaw(o.castRayAndGetNormal(Q,E,i,D,C,B));return Q.free(),E.free(),i.free(),D.free(),o.free(),G}}!function(A){A[A.Ball=0]=\"Ball\",A[A.Cuboid=1]=\"Cuboid\",A[A.Capsule=2]=\"Capsule\",A[A.Segment=3]=\"Segment\",A[A.Polyline=4]=\"Polyline\",A[A.Triangle=5]=\"Triangle\",A[A.TriMesh=6]=\"TriMesh\",A[A.HeightField=7]=\"HeightField\",A[A.ConvexPolyhedron=9]=\"ConvexPolyhedron\",A[A.Cylinder=10]=\"Cylinder\",A[A.Cone=11]=\"Cone\",A[A.RoundCuboid=12]=\"RoundCuboid\",A[A.RoundTriangle=13]=\"RoundTriangle\",A[A.RoundCylinder=14]=\"RoundCylinder\",A[A.RoundCone=15]=\"RoundCone\",A[A.RoundConvexPolyhedron=16]=\"RoundConvexPolyhedron\",A[A.HalfSpace=17]=\"HalfSpace\"}(JA||(JA={}));class EI extends QI{constructor(A){super(),this.type=JA.Ball,this.radius=A}intoRaw(){return IA.ball(this.radius)}}class iI extends QI{constructor(A){super(),this.type=JA.HalfSpace,this.normal=A}intoRaw(){let A=DA.intoRaw(this.normal),I=IA.halfspace(A);return A.free(),I}}class DI extends QI{constructor(A,I,g){super(),this.type=JA.Cuboid,this.halfExtents=DA.new(A,I,g)}intoRaw(){return IA.cuboid(this.halfExtents.x,this.halfExtents.y,this.halfExtents.z)}}class oI extends QI{constructor(A,I,g,C){super(),this.type=JA.RoundCuboid,this.halfExtents=DA.new(A,I,g),this.borderRadius=C}intoRaw(){return IA.roundCuboid(this.halfExtents.x,this.halfExtents.y,this.halfExtents.z,this.borderRadius)}}class GI extends QI{constructor(A,I){super(),this.type=JA.Capsule,this.halfHeight=A,this.radius=I}intoRaw(){return IA.capsule(this.halfHeight,this.radius)}}class wI extends QI{constructor(A,I){super(),this.type=JA.Segment,this.a=A,this.b=I}intoRaw(){let A=DA.intoRaw(this.a),I=DA.intoRaw(this.b),g=IA.segment(A,I);return A.free(),I.free(),g}}class kI extends QI{constructor(A,I,g){super(),this.type=JA.Triangle,this.a=A,this.b=I,this.c=g}intoRaw(){let A=DA.intoRaw(this.a),I=DA.intoRaw(this.b),g=DA.intoRaw(this.c),C=IA.triangle(A,I,g);return A.free(),I.free(),g.free(),C}}class SI extends QI{constructor(A,I,g,C){super(),this.type=JA.RoundTriangle,this.a=A,this.b=I,this.c=g,this.borderRadius=C}intoRaw(){let A=DA.intoRaw(this.a),I=DA.intoRaw(this.b),g=DA.intoRaw(this.c),C=IA.roundTriangle(A,I,g,this.borderRadius);return A.free(),I.free(),g.free(),C}}class aI extends QI{constructor(A,I){super(),this.type=JA.Polyline,this.vertices=A,this.indices=null!=I?I:new Uint32Array(0)}intoRaw(){return IA.polyline(this.vertices,this.indices)}}class MI extends QI{constructor(A,I){super(),this.type=JA.TriMesh,this.vertices=A,this.indices=I}intoRaw(){return IA.trimesh(this.vertices,this.indices)}}class KI extends QI{constructor(A,I){super(),this.type=JA.ConvexPolyhedron,this.vertices=A,this.indices=I}intoRaw(){return this.indices?IA.convexMesh(this.vertices,this.indices):IA.convexHull(this.vertices)}}class yI extends QI{constructor(A,I,g){super(),this.type=JA.RoundConvexPolyhedron,this.vertices=A,this.indices=I,this.borderRadius=g}intoRaw(){return this.indices?IA.roundConvexMesh(this.vertices,this.indices,this.borderRadius):IA.roundConvexHull(this.vertices,this.borderRadius)}}class JI extends QI{constructor(A,I,g,C){super(),this.type=JA.HeightField,this.nrows=A,this.ncols=I,this.heights=g,this.scale=C}intoRaw(){let A=DA.intoRaw(this.scale),I=IA.heightfield(this.nrows,this.ncols,this.heights,A);return A.free(),I}}class UI extends QI{constructor(A,I){super(),this.type=JA.Cylinder,this.halfHeight=A,this.radius=I}intoRaw(){return IA.cylinder(this.halfHeight,this.radius)}}class hI extends QI{constructor(A,I,g){super(),this.type=JA.RoundCylinder,this.borderRadius=g,this.halfHeight=A,this.radius=I}intoRaw(){return IA.roundCylinder(this.halfHeight,this.radius,this.borderRadius)}}class NI extends QI{constructor(A,I){super(),this.type=JA.Cone,this.halfHeight=A,this.radius=I}intoRaw(){return IA.cone(this.halfHeight,this.radius)}}class FI extends QI{constructor(A,I,g){super(),this.type=JA.RoundCone,this.halfHeight=A,this.radius=I,this.borderRadius=g}intoRaw(){return IA.roundCone(this.halfHeight,this.radius,this.borderRadius)}}!function(A){A[A.DYNAMIC_DYNAMIC=1]=\"DYNAMIC_DYNAMIC\",A[A.DYNAMIC_KINEMATIC=12]=\"DYNAMIC_KINEMATIC\",A[A.DYNAMIC_FIXED=2]=\"DYNAMIC_FIXED\",A[A.KINEMATIC_KINEMATIC=52224]=\"KINEMATIC_KINEMATIC\",A[A.KINEMATIC_FIXED=8704]=\"KINEMATIC_FIXED\",A[A.FIXED_FIXED=32]=\"FIXED_FIXED\",A[A.DEFAULT=15]=\"DEFAULT\",A[A.ALL=60943]=\"ALL\"}(UA||(UA={}));class qI{constructor(A,I,g,C){this.colliderSet=A,this.handle=I,this._parent=g,this._shape=C}finalizeDeserialization(A){null!=this.handle&&(this._parent=A.get(this.colliderSet.raw.coParent(this.handle)))}ensureShapeIsCached(){this._shape||(this._shape=QI.fromRaw(this.colliderSet.raw,this.handle))}get shape(){return this.ensureShapeIsCached(),this._shape}isValid(){return this.colliderSet.raw.contains(this.handle)}translation(){return DA.fromRaw(this.colliderSet.raw.coTranslation(this.handle))}rotation(){return GA.fromRaw(this.colliderSet.raw.coRotation(this.handle))}isSensor(){return this.colliderSet.raw.coIsSensor(this.handle)}setSensor(A){this.colliderSet.raw.coSetSensor(this.handle,A)}setShape(A){let I=A.intoRaw();this.colliderSet.raw.coSetShape(this.handle,I),I.free(),this._shape=A}setEnabled(A){this.colliderSet.raw.coSetEnabled(this.handle,A)}isEnabled(){return this.colliderSet.raw.coIsEnabled(this.handle)}setRestitution(A){this.colliderSet.raw.coSetRestitution(this.handle,A)}setFriction(A){this.colliderSet.raw.coSetFriction(this.handle,A)}frictionCombineRule(){return this.colliderSet.raw.coFrictionCombineRule(this.handle)}setFrictionCombineRule(A){this.colliderSet.raw.coSetFrictionCombineRule(this.handle,A)}restitutionCombineRule(){return this.colliderSet.raw.coRestitutionCombineRule(this.handle)}setRestitutionCombineRule(A){this.colliderSet.raw.coSetRestitutionCombineRule(this.handle,A)}setCollisionGroups(A){this.colliderSet.raw.coSetCollisionGroups(this.handle,A)}setSolverGroups(A){this.colliderSet.raw.coSetSolverGroups(this.handle,A)}activeHooks(){return this.colliderSet.raw.coActiveHooks(this.handle)}setActiveHooks(A){this.colliderSet.raw.coSetActiveHooks(this.handle,A)}activeEvents(){return this.colliderSet.raw.coActiveEvents(this.handle)}setActiveEvents(A){this.colliderSet.raw.coSetActiveEvents(this.handle,A)}activeCollisionTypes(){return this.colliderSet.raw.coActiveCollisionTypes(this.handle)}setContactForceEventThreshold(A){return this.colliderSet.raw.coSetContactForceEventThreshold(this.handle,A)}contactForceEventThreshold(){return this.colliderSet.raw.coContactForceEventThreshold(this.handle)}setActiveCollisionTypes(A){this.colliderSet.raw.coSetActiveCollisionTypes(this.handle,A)}setDensity(A){this.colliderSet.raw.coSetDensity(this.handle,A)}setMass(A){this.colliderSet.raw.coSetMass(this.handle,A)}setMassProperties(A,I,g,C){let B=DA.intoRaw(I),Q=DA.intoRaw(g),E=GA.intoRaw(C);this.colliderSet.raw.coSetMassProperties(this.handle,A,B,Q,E),B.free(),Q.free(),E.free()}setTranslation(A){this.colliderSet.raw.coSetTranslation(this.handle,A.x,A.y,A.z)}setTranslationWrtParent(A){this.colliderSet.raw.coSetTranslationWrtParent(this.handle,A.x,A.y,A.z)}setRotation(A){this.colliderSet.raw.coSetRotation(this.handle,A.x,A.y,A.z,A.w)}setRotationWrtParent(A){this.colliderSet.raw.coSetRotationWrtParent(this.handle,A.x,A.y,A.z,A.w)}shapeType(){return this.colliderSet.raw.coShapeType(this.handle)}halfExtents(){return DA.fromRaw(this.colliderSet.raw.coHalfExtents(this.handle))}setHalfExtents(A){const I=DA.intoRaw(A);this.colliderSet.raw.coSetHalfExtents(this.handle,I)}radius(){return this.colliderSet.raw.coRadius(this.handle)}setRadius(A){this.colliderSet.raw.coSetRadius(this.handle,A)}roundRadius(){return this.colliderSet.raw.coRoundRadius(this.handle)}setRoundRadius(A){this.colliderSet.raw.coSetRoundRadius(this.handle,A)}halfHeight(){return this.colliderSet.raw.coHalfHeight(this.handle)}setHalfHeight(A){this.colliderSet.raw.coSetHalfHeight(this.handle,A)}vertices(){return this.colliderSet.raw.coVertices(this.handle)}indices(){return this.colliderSet.raw.coIndices(this.handle)}heightfieldHeights(){return this.colliderSet.raw.coHeightfieldHeights(this.handle)}heightfieldScale(){let A=this.colliderSet.raw.coHeightfieldScale(this.handle);return DA.fromRaw(A)}heightfieldNRows(){return this.colliderSet.raw.coHeightfieldNRows(this.handle)}heightfieldNCols(){return this.colliderSet.raw.coHeightfieldNCols(this.handle)}parent(){return this._parent}friction(){return this.colliderSet.raw.coFriction(this.handle)}restitution(){return this.colliderSet.raw.coRestitution(this.handle)}density(){return this.colliderSet.raw.coDensity(this.handle)}mass(){return this.colliderSet.raw.coMass(this.handle)}volume(){return this.colliderSet.raw.coVolume(this.handle)}collisionGroups(){return this.colliderSet.raw.coCollisionGroups(this.handle)}solverGroups(){return this.colliderSet.raw.coSolverGroups(this.handle)}containsPoint(A){let I=DA.intoRaw(A),g=this.colliderSet.raw.coContainsPoint(this.handle,I);return I.free(),g}projectPoint(A,I){let g=DA.intoRaw(A),C=vA.fromRaw(this.colliderSet.raw.coProjectPoint(this.handle,g,I));return g.free(),C}intersectsRay(A,I){let g=DA.intoRaw(A.origin),C=DA.intoRaw(A.dir),B=this.colliderSet.raw.coIntersectsRay(this.handle,g,C,I);return g.free(),C.free(),B}castShape(A,I,g,C,B,Q,E){let i=DA.intoRaw(A),D=DA.intoRaw(g),o=GA.intoRaw(C),G=DA.intoRaw(B),w=I.intoRaw(),k=CI.fromRaw(this.colliderSet,this.colliderSet.raw.coCastShape(this.handle,i,w,D,o,G,Q,E));return i.free(),D.free(),o.free(),G.free(),w.free(),k}castCollider(A,I,g,C,B){let Q=DA.intoRaw(A),E=DA.intoRaw(g),i=BI.fromRaw(this.colliderSet,this.colliderSet.raw.coCastCollider(this.handle,Q,I.handle,E,C,B));return Q.free(),E.free(),i}intersectsShape(A,I,g){let C=DA.intoRaw(I),B=GA.intoRaw(g),Q=A.intoRaw(),E=this.colliderSet.raw.coIntersectsShape(this.handle,Q,C,B);return C.free(),B.free(),Q.free(),E}contactShape(A,I,g,C){let B=DA.intoRaw(I),Q=GA.intoRaw(g),E=A.intoRaw(),i=uA.fromRaw(this.colliderSet.raw.coContactShape(this.handle,E,B,Q,C));return B.free(),Q.free(),E.free(),i}contactCollider(A,I){return uA.fromRaw(this.colliderSet.raw.coContactCollider(this.handle,A.handle,I))}castRay(A,I,g){let C=DA.intoRaw(A.origin),B=DA.intoRaw(A.dir),Q=this.colliderSet.raw.coCastRay(this.handle,C,B,I,g);return C.free(),B.free(),Q}castRayAndGetNormal(A,I,g){let C=DA.intoRaw(A.origin),B=DA.intoRaw(A.dir),Q=AI.fromRaw(this.colliderSet.raw.coCastRayAndGetNormal(this.handle,C,B,I,g));return C.free(),B.free(),Q}}!function(A){A[A.Density=0]=\"Density\",A[A.Mass=1]=\"Mass\",A[A.MassProps=2]=\"MassProps\"}(hA||(hA={}));class RI{constructor(A){this.enabled=!0,this.shape=A,this.massPropsMode=hA.Density,this.density=1,this.friction=.5,this.restitution=0,this.rotation=GA.identity(),this.translation=DA.zeros(),this.isSensor=!1,this.collisionGroups=4294967295,this.solverGroups=4294967295,this.frictionCombineRule=KA.Average,this.restitutionCombineRule=KA.Average,this.activeCollisionTypes=UA.DEFAULT,this.activeEvents=0,this.activeHooks=0,this.mass=0,this.centerOfMass=DA.zeros(),this.contactForceEventThreshold=0,this.principalAngularInertia=DA.zeros(),this.angularInertiaLocalFrame=GA.identity()}static ball(A){const I=new EI(A);return new RI(I)}static capsule(A,I){const g=new GI(A,I);return new RI(g)}static segment(A,I){const g=new wI(A,I);return new RI(g)}static triangle(A,I,g){const C=new kI(A,I,g);return new RI(C)}static roundTriangle(A,I,g,C){const B=new SI(A,I,g,C);return new RI(B)}static polyline(A,I){const g=new aI(A,I);return new RI(g)}static trimesh(A,I){const g=new MI(A,I);return new RI(g)}static cuboid(A,I,g){const C=new DI(A,I,g);return new RI(C)}static roundCuboid(A,I,g,C){const B=new oI(A,I,g,C);return new RI(B)}static heightfield(A,I,g,C){const B=new JI(A,I,g,C);return new RI(B)}static cylinder(A,I){const g=new UI(A,I);return new RI(g)}static roundCylinder(A,I,g){const C=new hI(A,I,g);return new RI(C)}static cone(A,I){const g=new NI(A,I);return new RI(g)}static roundCone(A,I,g){const C=new FI(A,I,g);return new RI(C)}static convexHull(A){const I=new KI(A,null);return new RI(I)}static convexMesh(A,I){const g=new KI(A,I);return new RI(g)}static roundConvexHull(A,I){const g=new yI(A,null,I);return new RI(g)}static roundConvexMesh(A,I,g){const C=new yI(A,I,g);return new RI(C)}setTranslation(A,I,g){if(\"number\"!=typeof A||\"number\"!=typeof I||\"number\"!=typeof g)throw TypeError(\"The translation components must be numbers.\");return this.translation={x:A,y:I,z:g},this}setRotation(A){return GA.copy(this.rotation,A),this}setSensor(A){return this.isSensor=A,this}setEnabled(A){return this.enabled=A,this}setDensity(A){return this.massPropsMode=hA.Density,this.density=A,this}setMass(A){return this.massPropsMode=hA.Mass,this.mass=A,this}setMassProperties(A,I,g,C){return this.massPropsMode=hA.MassProps,this.mass=A,DA.copy(this.centerOfMass,I),DA.copy(this.principalAngularInertia,g),GA.copy(this.angularInertiaLocalFrame,C),this}setRestitution(A){return this.restitution=A,this}setFriction(A){return this.friction=A,this}setFrictionCombineRule(A){return this.frictionCombineRule=A,this}setRestitutionCombineRule(A){return this.restitutionCombineRule=A,this}setCollisionGroups(A){return this.collisionGroups=A,this}setSolverGroups(A){return this.solverGroups=A,this}setActiveHooks(A){return this.activeHooks=A,this}setActiveEvents(A){return this.activeEvents=A,this}setActiveCollisionTypes(A){return this.activeCollisionTypes=A,this}setContactForceEventThreshold(A){return this.contactForceEventThreshold=A,this}}class sI{constructor(A){this.raw=A||new l,this.map=new YA,A&&A.forEachColliderHandle((A=>{this.map.set(A,new qI(this,A,null))}))}free(){this.raw&&this.raw.free(),this.raw=void 0,this.map&&this.map.clear(),this.map=void 0}castClosure(A){return I=>A?A(this.get(I)):void 0}finalizeDeserialization(A){this.map.forEach((I=>I.finalizeDeserialization(A)))}createCollider(A,I,g){let C=null!=g&&null!=g;if(C&&isNaN(g))throw Error(\"Cannot create a collider with a parent rigid-body handle that is not a number.\");let B=I.shape.intoRaw(),Q=DA.intoRaw(I.translation),E=GA.intoRaw(I.rotation),i=DA.intoRaw(I.centerOfMass),D=DA.intoRaw(I.principalAngularInertia),o=GA.intoRaw(I.angularInertiaLocalFrame),G=this.raw.createCollider(I.enabled,B,Q,E,I.massPropsMode,I.mass,i,D,o,I.density,I.friction,I.restitution,I.frictionCombineRule,I.restitutionCombineRule,I.isSensor,I.collisionGroups,I.solverGroups,I.activeCollisionTypes,I.activeHooks,I.activeEvents,I.contactForceEventThreshold,C,C?g:0,A.raw);B.free(),Q.free(),E.free(),i.free(),D.free(),o.free();let w=C?A.get(g):null,k=new qI(this,G,w,I.shape);return this.map.set(G,k),k}remove(A,I,g,C){this.raw.remove(A,I.raw,g.raw,C),this.unmap(A)}unmap(A){this.map.delete(A)}get(A){return this.map.get(A)}len(){return this.map.len()}contains(A){return null!=this.get(A)}forEach(A){this.map.forEach(A)}getAll(){return this.map.getAll()}}class cI{constructor(A){this.raw=A||new f}free(){this.raw&&this.raw.free(),this.raw=void 0}step(A,I,g,C,B,Q,E,i,D,o,G,w){let k=DA.intoRaw(A);G?this.raw.stepWithEvents(k,I.raw,g.raw,C.raw,B.raw,Q.raw,E.raw,i.raw,D.raw,o.raw,G.raw,w,w?w.filterContactPair:null,w?w.filterIntersectionPair:null):this.raw.step(k,I.raw,g.raw,C.raw,B.raw,Q.raw,E.raw,i.raw,D.raw,o.raw),k.free()}}!function(A){A[A.EXCLUDE_FIXED=1]=\"EXCLUDE_FIXED\",A[A.EXCLUDE_KINEMATIC=2]=\"EXCLUDE_KINEMATIC\",A[A.EXCLUDE_DYNAMIC=4]=\"EXCLUDE_DYNAMIC\",A[A.EXCLUDE_SENSORS=8]=\"EXCLUDE_SENSORS\",A[A.EXCLUDE_SOLIDS=16]=\"EXCLUDE_SOLIDS\",A[A.ONLY_DYNAMIC=3]=\"ONLY_DYNAMIC\",A[A.ONLY_KINEMATIC=5]=\"ONLY_KINEMATIC\",A[A.ONLY_FIXED=6]=\"ONLY_FIXED\"}(NA||(NA={}));class YI{constructor(A){this.raw=A||new V}free(){this.raw&&this.raw.free(),this.raw=void 0}update(A,I){this.raw.update(A.raw,I.raw)}castRay(A,I,g,C,B,Q,E,i,D,o){let G=DA.intoRaw(g.origin),w=DA.intoRaw(g.dir),k=gI.fromRaw(I,this.raw.castRay(A.raw,I.raw,G,w,C,B,Q,E,i,D,o));return G.free(),w.free(),k}castRayAndGetNormal(A,I,g,C,B,Q,E,i,D,o){let G=DA.intoRaw(g.origin),w=DA.intoRaw(g.dir),k=II.fromRaw(I,this.raw.castRayAndGetNormal(A.raw,I.raw,G,w,C,B,Q,E,i,D,o));return G.free(),w.free(),k}intersectionsWithRay(A,I,g,C,B,Q,E,i,D,o,G){let w=DA.intoRaw(g.origin),k=DA.intoRaw(g.dir);this.raw.intersectionsWithRay(A.raw,I.raw,w,k,C,B,(A=>Q(II.fromRaw(I,A))),E,i,D,o,G),w.free(),k.free()}intersectionWithShape(A,I,g,C,B,Q,E,i,D,o){let G=DA.intoRaw(g),w=GA.intoRaw(C),k=B.intoRaw(),S=this.raw.intersectionWithShape(A.raw,I.raw,G,w,k,Q,E,i,D,o);return G.free(),w.free(),k.free(),S}projectPoint(A,I,g,C,B,Q,E,i,D){let o=DA.intoRaw(g),G=_A.fromRaw(I,this.raw.projectPoint(A.raw,I.raw,o,C,B,Q,E,i,D));return o.free(),G}projectPointAndGetFeature(A,I,g,C,B,Q,E,i){let D=DA.intoRaw(g),o=_A.fromRaw(I,this.raw.projectPointAndGetFeature(A.raw,I.raw,D,C,B,Q,E,i));return D.free(),o}intersectionsWithPoint(A,I,g,C,B,Q,E,i,D){let o=DA.intoRaw(g);this.raw.intersectionsWithPoint(A.raw,I.raw,o,C,B,Q,E,i,D),o.free()}castShape(A,I,g,C,B,Q,E,i,D,o,G,w,k){let S=DA.intoRaw(g),a=GA.intoRaw(C),M=DA.intoRaw(B),K=Q.intoRaw(),y=BI.fromRaw(I,this.raw.castShape(A.raw,I.raw,S,a,M,K,E,i,D,o,G,w,k));return S.free(),a.free(),M.free(),K.free(),y}intersectionsWithShape(A,I,g,C,B,Q,E,i,D,o,G){let w=DA.intoRaw(g),k=GA.intoRaw(C),S=B.intoRaw();this.raw.intersectionsWithShape(A.raw,I.raw,w,k,S,Q,E,i,D,o,G),w.free(),k.free(),S.free()}collidersWithAabbIntersectingAabb(A,I,g){let C=DA.intoRaw(A),B=DA.intoRaw(I);this.raw.collidersWithAabbIntersectingAabb(C,B,g),C.free(),B.free()}}class LI{constructor(A){this.raw=A||new AA}free(){this.raw&&this.raw.free(),this.raw=void 0}serializeAll(A,I,g,C,B,Q,E,i,D){let o=DA.intoRaw(A);const G=this.raw.serializeAll(o,I.raw,g.raw,C.raw,B.raw,Q.raw,E.raw,i.raw,D.raw);return o.free(),G}deserializeAll(A){return eI.fromRaw(this.raw.deserializeAll(A))}}class HI{constructor(A,I){this.vertices=A,this.colors=I}}class lI{constructor(A){this.raw=A||new r}free(){this.raw&&this.raw.free(),this.raw=void 0,this.vertices=void 0,this.colors=void 0}render(A,I,g,C,B){this.raw.render(A.raw,I.raw,g.raw,C.raw,B.raw),this.vertices=this.raw.vertices(),this.colors=this.raw.colors()}}class tI{}class pI{constructor(A,I,g,C,B){this.params=I,this.bodies=g,this.colliders=C,this.queries=B,this.raw=new W(A),this.rawCharacterCollision=new H,this._applyImpulsesToDynamicBodies=!1,this._characterMass=null}free(){this.raw&&(this.raw.free(),this.rawCharacterCollision.free()),this.raw=void 0,this.rawCharacterCollision=void 0}up(){return this.raw.up()}setUp(A){let I=DA.intoRaw(A);return this.raw.setUp(I)}applyImpulsesToDynamicBodies(){return this._applyImpulsesToDynamicBodies}setApplyImpulsesToDynamicBodies(A){this._applyImpulsesToDynamicBodies=A}characterMass(){return this._characterMass}setCharacterMass(A){this._characterMass=A}offset(){return this.raw.offset()}setOffset(A){this.raw.setOffset(A)}slideEnabled(){return this.raw.slideEnabled()}setSlideEnabled(A){this.raw.setSlideEnabled(A)}autostepMaxHeight(){return this.raw.autostepMaxHeight()}autostepMinWidth(){return this.raw.autostepMinWidth()}autostepIncludesDynamicBodies(){return this.raw.autostepIncludesDynamicBodies()}autostepEnabled(){return this.raw.autostepEnabled()}enableAutostep(A,I,g){this.raw.enableAutostep(A,I,g)}disableAutostep(){return this.raw.disableAutostep()}maxSlopeClimbAngle(){return this.raw.maxSlopeClimbAngle()}setMaxSlopeClimbAngle(A){this.raw.setMaxSlopeClimbAngle(A)}minSlopeSlideAngle(){return this.raw.minSlopeSlideAngle()}setMinSlopeSlideAngle(A){this.raw.setMinSlopeSlideAngle(A)}snapToGroundDistance(){return this.raw.snapToGroundDistance()}enableSnapToGround(A){this.raw.enableSnapToGround(A)}disableSnapToGround(){this.raw.disableSnapToGround()}snapToGroundEnabled(){return this.raw.snapToGroundEnabled()}computeColliderMovement(A,I,g,C,B){let Q=DA.intoRaw(I);this.raw.computeColliderMovement(this.params.dt,this.bodies.raw,this.colliders.raw,this.queries.raw,A.handle,Q,this._applyImpulsesToDynamicBodies,this._characterMass,g,C,this.colliders.castClosure(B)),Q.free()}computedMovement(){return DA.fromRaw(this.raw.computedMovement())}computedGrounded(){return this.raw.computedGrounded()}numComputedCollisions(){return this.raw.numComputedCollisions()}computedCollision(A,I){if(this.raw.computedCollision(A,this.rawCharacterCollision)){let A=this.rawCharacterCollision;return(I=null!=I?I:new tI).translationApplied=DA.fromRaw(A.translationApplied()),I.translationRemaining=DA.fromRaw(A.translationRemaining()),I.toi=A.toi(),I.witness1=DA.fromRaw(A.worldWitness1()),I.witness2=DA.fromRaw(A.worldWitness2()),I.normal1=DA.fromRaw(A.worldNormal1()),I.normal2=DA.fromRaw(A.worldNormal2()),I.collider=this.colliders.get(A.handle()),I}return null}}class eI{constructor(A,I,g,C,B,Q,E,i,D,o,G,w,k,S){this.gravity=A,this.integrationParameters=new HA(I),this.islands=new XA(g),this.broadPhase=new VA(C),this.narrowPhase=new PA(B),this.bodies=new LA(Q),this.colliders=new sI(E),this.impulseJoints=new OA(i),this.multibodyJoints=new fA(D),this.ccdSolver=new mA(o),this.queryPipeline=new YI(G),this.physicsPipeline=new cI(w),this.serializationPipeline=new LI(k),this.debugRenderPipeline=new lI(S),this.characterControllers=new Set,this.impulseJoints.finalizeDeserialization(this.bodies),this.bodies.finalizeDeserialization(this.colliders),this.colliders.finalizeDeserialization(this.bodies)}free(){this.integrationParameters.free(),this.islands.free(),this.broadPhase.free(),this.narrowPhase.free(),this.bodies.free(),this.colliders.free(),this.impulseJoints.free(),this.multibodyJoints.free(),this.ccdSolver.free(),this.queryPipeline.free(),this.physicsPipeline.free(),this.serializationPipeline.free(),this.debugRenderPipeline.free(),this.characterControllers.forEach((A=>A.free())),this.integrationParameters=void 0,this.islands=void 0,this.broadPhase=void 0,this.narrowPhase=void 0,this.bodies=void 0,this.colliders=void 0,this.ccdSolver=void 0,this.impulseJoints=void 0,this.multibodyJoints=void 0,this.queryPipeline=void 0,this.physicsPipeline=void 0,this.serializationPipeline=void 0,this.debugRenderPipeline=void 0,this.characterControllers=void 0}static fromRaw(A){return A?new eI(DA.fromRaw(A.takeGravity()),A.takeIntegrationParameters(),A.takeIslandManager(),A.takeBroadPhase(),A.takeNarrowPhase(),A.takeBodies(),A.takeColliders(),A.takeImpulseJoints(),A.takeMultibodyJoints()):null}takeSnapshot(){return this.serializationPipeline.serializeAll(this.gravity,this.integrationParameters,this.islands,this.broadPhase,this.narrowPhase,this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints)}static restoreSnapshot(A){return(new LI).deserializeAll(A)}debugRender(){return this.debugRenderPipeline.render(this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints,this.narrowPhase),new HI(this.debugRenderPipeline.vertices,this.debugRenderPipeline.colors)}step(A,I){this.physicsPipeline.step(this.gravity,this.integrationParameters,this.islands,this.broadPhase,this.narrowPhase,this.bodies,this.colliders,this.impulseJoints,this.multibodyJoints,this.ccdSolver,A,I),this.queryPipeline.update(this.bodies,this.colliders)}propagateModifiedBodyPositionsToColliders(){this.bodies.raw.propagateModifiedBodyPositionsToColliders(this.colliders.raw)}updateSceneQueries(){this.propagateModifiedBodyPositionsToColliders(),this.queryPipeline.update(this.bodies,this.colliders)}get timestep(){return this.integrationParameters.dt}set timestep(A){this.integrationParameters.dt=A}get maxVelocityIterations(){return this.integrationParameters.maxVelocityIterations}set maxVelocityIterations(A){this.integrationParameters.maxVelocityIterations=A}get maxVelocityFrictionIterations(){return this.integrationParameters.maxVelocityFrictionIterations}set maxVelocityFrictionIterations(A){this.integrationParameters.maxVelocityFrictionIterations=A}get maxStabilizationIterations(){return this.integrationParameters.maxStabilizationIterations}set maxStabilizationIterations(A){this.integrationParameters.maxStabilizationIterations=A}createRigidBody(A){return this.bodies.createRigidBody(this.colliders,A)}createCharacterController(A){let I=new pI(A,this.integrationParameters,this.bodies,this.colliders,this.queryPipeline);return this.characterControllers.add(I),I}removeCharacterController(A){this.characterControllers.delete(A),A.free()}createCollider(A,I){let g=I?I.handle:void 0;return this.colliders.createCollider(this.bodies,A,g)}createImpulseJoint(A,I,g,C){return this.impulseJoints.createJoint(this.bodies,A,I.handle,g.handle,C)}createMultibodyJoint(A,I,g,C){return this.multibodyJoints.createJoint(A,I.handle,g.handle,C)}getRigidBody(A){return this.bodies.get(A)}getCollider(A){return this.colliders.get(A)}getImpulseJoint(A){return this.impulseJoints.get(A)}getMultibodyJoint(A){return this.multibodyJoints.get(A)}removeRigidBody(A){this.bodies&&this.bodies.remove(A.handle,this.islands,this.colliders,this.impulseJoints,this.multibodyJoints)}removeCollider(A,I){this.colliders&&this.colliders.remove(A.handle,this.islands,this.bodies,I)}removeImpulseJoint(A,I){this.impulseJoints&&this.impulseJoints.remove(A.handle,I)}removeMultibodyJoint(A,I){this.impulseJoints&&this.multibodyJoints.remove(A.handle,I)}forEachCollider(A){this.colliders.forEach(A)}forEachRigidBody(A){this.bodies.forEach(A)}forEachActiveRigidBody(A){this.bodies.forEachActiveRigidBody(this.islands,A)}castRay(A,I,g,C,B,Q,E,i){return this.queryPipeline.castRay(this.bodies,this.colliders,A,I,g,C,B,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(i))}castRayAndGetNormal(A,I,g,C,B,Q,E,i){return this.queryPipeline.castRayAndGetNormal(this.bodies,this.colliders,A,I,g,C,B,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(i))}intersectionsWithRay(A,I,g,C,B,Q,E,i,D){this.queryPipeline.intersectionsWithRay(this.bodies,this.colliders,A,I,g,C,B,Q,E?E.handle:null,i?i.handle:null,this.colliders.castClosure(D))}intersectionWithShape(A,I,g,C,B,Q,E,i){let D=this.queryPipeline.intersectionWithShape(this.bodies,this.colliders,A,I,g,C,B,Q?Q.handle:null,E?E.handle:null,this.colliders.castClosure(i));return null!=D?this.colliders.get(D):null}projectPoint(A,I,g,C,B,Q,E){return this.queryPipeline.projectPoint(this.bodies,this.colliders,A,I,g,C,B?B.handle:null,Q?Q.handle:null,this.colliders.castClosure(E))}projectPointAndGetFeature(A,I,g,C,B,Q){return this.queryPipeline.projectPointAndGetFeature(this.bodies,this.colliders,A,I,g,C?C.handle:null,B?B.handle:null,this.colliders.castClosure(Q))}intersectionsWithPoint(A,I,g,C,B,Q,E){this.queryPipeline.intersectionsWithPoint(this.bodies,this.colliders,A,this.colliders.castClosure(I),g,C,B?B.handle:null,Q?Q.handle:null,this.colliders.castClosure(E))}castShape(A,I,g,C,B,Q,E,i,D,o,G){return this.queryPipeline.castShape(this.bodies,this.colliders,A,I,g,C,B,Q,E,i,D?D.handle:null,o?o.handle:null,this.colliders.castClosure(G))}intersectionsWithShape(A,I,g,C,B,Q,E,i,D){this.queryPipeline.intersectionsWithShape(this.bodies,this.colliders,A,I,g,this.colliders.castClosure(C),B,Q,E?E.handle:null,i?i.handle:null,this.colliders.castClosure(D))}collidersWithAabbIntersectingAabb(A,I,g){this.queryPipeline.collidersWithAabbIntersectingAabb(A,I,this.colliders.castClosure(g))}contactsWith(A,I){this.narrowPhase.contactsWith(A.handle,this.colliders.castClosure(I))}intersectionsWith(A,I){this.narrowPhase.intersectionsWith(A.handle,this.colliders.castClosure(I))}contactPair(A,I,g){this.narrowPhase.contactPair(A.handle,I.handle,g)}intersectionPair(A,I){return this.narrowPhase.intersectionPair(A.handle,I.handle)}}!function(A){A[A.COLLISION_EVENTS=1]=\"COLLISION_EVENTS\",A[A.CONTACT_FORCE_EVENTS=2]=\"CONTACT_FORCE_EVENTS\"}(FA||(FA={}));class rI{free(){this.raw&&this.raw.free(),this.raw=void 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\").buffer)}))}function VI(){return function(){try{const C=A.__wbindgen_add_to_stack_pointer(-16);A.version(C);var I=G()[C/4+0],g=G()[C/4+1];return S(I,g)}finally{A.__wbindgen_add_to_stack_pointer(16),A.__wbindgen_free(I,g)}}()}ZI[\"-\".charCodeAt(0)]=62,ZI[\"_\".charCodeAt(0)]=63;var PI=Object.freeze({__proto__:null,version:VI,Vector3:iA,VectorOps:DA,Quaternion:oA,RotationOps:GA,SdpMatrix3:wA,SdpMatrix3Ops:kA,get RigidBodyType(){return SA},RigidBody:sA,RigidBodyDesc:cA,RigidBodySet:LA,IntegrationParameters:HA,get JointType(){return aA},get MotorModel(){return MA},ImpulseJoint:lA,UnitImpulseJoint:tA,FixedImpulseJoint:pA,PrismaticImpulseJoint:eA,RevoluteImpulseJoint:rA,SphericalImpulseJoint:dA,JointData:TA,ImpulseJointSet:OA,MultibodyJoint:nA,UnitMultibodyJoint:ZA,FixedMultibodyJoint:bA,PrismaticMultibodyJoint:WA,RevoluteMultibodyJoint:jA,SphericalMultibodyJoint:xA,MultibodyJointSet:fA,get CoefficientCombineRule(){return KA},CCDSolver:mA,IslandManager:XA,BroadPhase:VA,NarrowPhase:PA,TempContactManifold:zA,Shape:QI,get ShapeType(){return JA},Ball:EI,HalfSpace:iI,Cuboid:DI,RoundCuboid:oI,Capsule:GI,Segment:wI,Triangle:kI,RoundTriangle:SI,Polyline:aI,TriMesh:MI,ConvexPolyhedron:KI,RoundConvexPolyhedron:yI,Heightfield:JI,Cylinder:UI,RoundCylinder:hI,Cone:NI,RoundCone:FI,get ActiveCollisionTypes(){return UA},Collider:qI,get MassPropsMode(){return hA},ColliderDesc:RI,ColliderSet:sI,get FeatureType(){return yA},Ray:$A,RayIntersection:AI,RayColliderIntersection:II,RayColliderToi:gI,PointProjection:vA,PointColliderProjection:_A,ShapeTOI:CI,ShapeColliderTOI:BI,ShapeContact:uA,World:eI,PhysicsPipeline:cI,SerializationPipeline:LI,get ActiveEvents(){return FA},TempContactForceEvent:rI,EventQueue:dI,get ActiveHooks(){return qA},get SolverFlags(){return RA},DebugRenderBuffers:HI,DebugRenderPipeline:lI,get QueryFilterFlags(){return NA},QueryPipeline:YI,init:XI,CharacterCollision:tI,KinematicCharacterController:pI});export{UA as ActiveCollisionTypes,FA as ActiveEvents,qA as ActiveHooks,EI as Ball,VA as BroadPhase,mA as CCDSolver,GI as Capsule,tI as CharacterCollision,KA as CoefficientCombineRule,qI as Collider,RI as ColliderDesc,sI as ColliderSet,NI as Cone,KI as ConvexPolyhedron,DI as Cuboid,UI as Cylinder,HI as DebugRenderBuffers,lI as DebugRenderPipeline,dI as EventQueue,yA as FeatureType,pA as FixedImpulseJoint,bA as FixedMultibodyJoint,iI as HalfSpace,JI as Heightfield,lA as ImpulseJoint,OA as ImpulseJointSet,HA as IntegrationParameters,XA as IslandManager,TA as JointData,aA as JointType,pI as KinematicCharacterController,hA as MassPropsMode,MA as MotorModel,nA as MultibodyJoint,fA as MultibodyJointSet,PA as NarrowPhase,cI as PhysicsPipeline,_A as PointColliderProjection,vA as PointProjection,aI as Polyline,eA as PrismaticImpulseJoint,WA as PrismaticMultibodyJoint,oA as Quaternion,NA as QueryFilterFlags,YI as QueryPipeline,$A as Ray,II as RayColliderIntersection,gI as RayColliderToi,AI as RayIntersection,rA as RevoluteImpulseJoint,jA as RevoluteMultibodyJoint,sA as RigidBody,cA as RigidBodyDesc,LA as RigidBodySet,SA as RigidBodyType,GA as RotationOps,FI as RoundCone,yI as RoundConvexPolyhedron,oI as RoundCuboid,hI as RoundCylinder,SI as RoundTriangle,wA as SdpMatrix3,kA as SdpMatrix3Ops,wI as Segment,LI as SerializationPipeline,QI as Shape,BI as ShapeColliderTOI,uA as ShapeContact,CI as ShapeTOI,JA as ShapeType,RA as SolverFlags,dA as SphericalImpulseJoint,xA as SphericalMultibodyJoint,rI as TempContactForceEvent,zA as TempContactManifold,MI as TriMesh,kI as Triangle,tA as UnitImpulseJoint,ZA as UnitMultibodyJoint,iA as Vector3,DA as VectorOps,eI as World,PI as default,XI as init,VI as version};\n//# sourceMappingURL=rapier.es.js.map\n","/**\n * Records what objects are colliding with each other\n */\nclass ObjectCollisionMatrix {\n /**\n * The matrix storage.\n */\n\n /**\n * @todo Remove useless constructor\n */\n constructor() {\n this.matrix = void 0;\n this.matrix = {};\n }\n /**\n * get\n */\n\n\n get(bi, bj) {\n let {\n id: i\n } = bi;\n let {\n id: j\n } = bj;\n\n if (j > i) {\n const temp = j;\n j = i;\n i = temp;\n }\n\n return i + \"-\" + j in this.matrix;\n }\n /**\n * set\n */\n\n\n set(bi, bj, value) {\n let {\n id: i\n } = bi;\n let {\n id: j\n } = bj;\n\n if (j > i) {\n const temp = j;\n j = i;\n i = temp;\n }\n\n if (value) {\n this.matrix[i + \"-\" + j] = true;\n } else {\n delete this.matrix[i + \"-\" + j];\n }\n }\n /**\n * Empty the matrix\n */\n\n\n reset() {\n this.matrix = {};\n }\n /**\n * Set max number of objects\n */\n\n\n setNumObjects(n) {}\n\n}\n\n/**\n * A 3x3 matrix.\n * Authored by {@link http://github.com/schteppe/ schteppe}\n */\nclass Mat3 {\n /**\n * A vector of length 9, containing all matrix elements.\n */\n\n /**\n * @param elements A vector of length 9, containing all matrix elements.\n */\n constructor(elements = [0, 0, 0, 0, 0, 0, 0, 0, 0]) {\n this.elements = void 0;\n this.elements = elements;\n }\n /**\n * Sets the matrix to identity\n * @todo Should perhaps be renamed to `setIdentity()` to be more clear.\n * @todo Create another function that immediately creates an identity matrix eg. `eye()`\n */\n\n\n identity() {\n const e = this.elements;\n e[0] = 1;\n e[1] = 0;\n e[2] = 0;\n e[3] = 0;\n e[4] = 1;\n e[5] = 0;\n e[6] = 0;\n e[7] = 0;\n e[8] = 1;\n }\n /**\n * Set all elements to zero\n */\n\n\n setZero() {\n const e = this.elements;\n e[0] = 0;\n e[1] = 0;\n e[2] = 0;\n e[3] = 0;\n e[4] = 0;\n e[5] = 0;\n e[6] = 0;\n e[7] = 0;\n e[8] = 0;\n }\n /**\n * Sets the matrix diagonal elements from a Vec3\n */\n\n\n setTrace(vector) {\n const e = this.elements;\n e[0] = vector.x;\n e[4] = vector.y;\n e[8] = vector.z;\n }\n /**\n * Gets the matrix diagonal elements\n */\n\n\n getTrace(target = new Vec3()) {\n const e = this.elements;\n target.x = e[0];\n target.y = e[4];\n target.z = e[8];\n return target;\n }\n /**\n * Matrix-Vector multiplication\n * @param v The vector to multiply with\n * @param target Optional, target to save the result in.\n */\n\n\n vmult(v, target = new Vec3()) {\n const e = this.elements;\n const x = v.x;\n const y = v.y;\n const z = v.z;\n target.x = e[0] * x + e[1] * y + e[2] * z;\n target.y = e[3] * x + e[4] * y + e[5] * z;\n target.z = e[6] * x + e[7] * y + e[8] * z;\n return target;\n }\n /**\n * Matrix-scalar multiplication\n */\n\n\n smult(s) {\n for (let i = 0; i < this.elements.length; i++) {\n this.elements[i] *= s;\n }\n }\n /**\n * Matrix multiplication\n * @param matrix Matrix to multiply with from left side.\n */\n\n\n mmult(matrix, target = new Mat3()) {\n const A = this.elements;\n const B = matrix.elements;\n const T = target.elements;\n const a11 = A[0],\n a12 = A[1],\n a13 = A[2],\n a21 = A[3],\n a22 = A[4],\n a23 = A[5],\n a31 = A[6],\n a32 = A[7],\n a33 = A[8];\n const b11 = B[0],\n b12 = B[1],\n b13 = B[2],\n b21 = B[3],\n b22 = B[4],\n b23 = B[5],\n b31 = B[6],\n b32 = B[7],\n b33 = B[8];\n T[0] = a11 * b11 + a12 * b21 + a13 * b31;\n T[1] = a11 * b12 + a12 * b22 + a13 * b32;\n T[2] = a11 * b13 + a12 * b23 + a13 * b33;\n T[3] = a21 * b11 + a22 * b21 + a23 * b31;\n T[4] = a21 * b12 + a22 * b22 + a23 * b32;\n T[5] = a21 * b13 + a22 * b23 + a23 * b33;\n T[6] = a31 * b11 + a32 * b21 + a33 * b31;\n T[7] = a31 * b12 + a32 * b22 + a33 * b32;\n T[8] = a31 * b13 + a32 * b23 + a33 * b33;\n return target;\n }\n /**\n * Scale each column of the matrix\n */\n\n\n scale(vector, target = new Mat3()) {\n const e = this.elements;\n const t = target.elements;\n\n for (let i = 0; i !== 3; i++) {\n t[3 * i + 0] = vector.x * e[3 * i + 0];\n t[3 * i + 1] = vector.y * e[3 * i + 1];\n t[3 * i + 2] = vector.z * e[3 * i + 2];\n }\n\n return target;\n }\n /**\n * Solve Ax=b\n * @param b The right hand side\n * @param target Optional. Target vector to save in.\n * @return The solution x\n * @todo should reuse arrays\n */\n\n\n solve(b, target = new Vec3()) {\n // Construct equations\n const nr = 3; // num rows\n\n const nc = 4; // num cols\n\n const eqns = [];\n let i;\n let j;\n\n for (i = 0; i < nr * nc; i++) {\n eqns.push(0);\n }\n\n for (i = 0; i < 3; i++) {\n for (j = 0; j < 3; j++) {\n eqns[i + nc * j] = this.elements[i + 3 * j];\n }\n }\n\n eqns[3 + 4 * 0] = b.x;\n eqns[3 + 4 * 1] = b.y;\n eqns[3 + 4 * 2] = b.z; // Compute right upper triangular version of the matrix - Gauss elimination\n\n let n = 3;\n const k = n;\n let np;\n const kp = 4; // num rows\n\n let p;\n\n do {\n i = k - n;\n\n if (eqns[i + nc * i] === 0) {\n // the pivot is null, swap lines\n for (j = i + 1; j < k; j++) {\n if (eqns[i + nc * j] !== 0) {\n np = kp;\n\n do {\n // do ligne( i ) = ligne( i ) + ligne( k )\n p = kp - np;\n eqns[p + nc * i] += eqns[p + nc * j];\n } while (--np);\n\n break;\n }\n }\n }\n\n if (eqns[i + nc * i] !== 0) {\n for (j = i + 1; j < k; j++) {\n const multiplier = eqns[i + nc * j] / eqns[i + nc * i];\n np = kp;\n\n do {\n // do ligne( k ) = ligne( k ) - multiplier * ligne( i )\n p = kp - np;\n eqns[p + nc * j] = p <= i ? 0 : eqns[p + nc * j] - eqns[p + nc * i] * multiplier;\n } while (--np);\n }\n }\n } while (--n); // Get the solution\n\n\n target.z = eqns[2 * nc + 3] / eqns[2 * nc + 2];\n target.y = (eqns[1 * nc + 3] - eqns[1 * nc + 2] * target.z) / eqns[1 * nc + 1];\n target.x = (eqns[0 * nc + 3] - eqns[0 * nc + 2] * target.z - eqns[0 * nc + 1] * target.y) / eqns[0 * nc + 0];\n\n if (isNaN(target.x) || isNaN(target.y) || isNaN(target.z) || target.x === Infinity || target.y === Infinity || target.z === Infinity) {\n throw \"Could not solve equation! Got x=[\" + target.toString() + \"], b=[\" + b.toString() + \"], A=[\" + this.toString() + \"]\";\n }\n\n return target;\n }\n /**\n * Get an element in the matrix by index. Index starts at 0, not 1!!!\n * @param value If provided, the matrix element will be set to this value.\n */\n\n\n e(row, column, value) {\n if (value === undefined) {\n return this.elements[column + 3 * row];\n } else {\n // Set value\n this.elements[column + 3 * row] = value;\n }\n }\n /**\n * Copy another matrix into this matrix object.\n */\n\n\n copy(matrix) {\n for (let i = 0; i < matrix.elements.length; i++) {\n this.elements[i] = matrix.elements[i];\n }\n\n return this;\n }\n /**\n * Returns a string representation of the matrix.\n */\n\n\n toString() {\n let r = '';\n const sep = ',';\n\n for (let i = 0; i < 9; i++) {\n r += this.elements[i] + sep;\n }\n\n return r;\n }\n /**\n * reverse the matrix\n * @param target Target matrix to save in.\n * @return The solution x\n */\n\n\n reverse(target = new Mat3()) {\n // Construct equations\n const nr = 3; // num rows\n\n const nc = 6; // num cols\n\n const eqns = reverse_eqns;\n let i;\n let j;\n\n for (i = 0; i < 3; i++) {\n for (j = 0; j < 3; j++) {\n eqns[i + nc * j] = this.elements[i + 3 * j];\n }\n }\n\n eqns[3 + 6 * 0] = 1;\n eqns[3 + 6 * 1] = 0;\n eqns[3 + 6 * 2] = 0;\n eqns[4 + 6 * 0] = 0;\n eqns[4 + 6 * 1] = 1;\n eqns[4 + 6 * 2] = 0;\n eqns[5 + 6 * 0] = 0;\n eqns[5 + 6 * 1] = 0;\n eqns[5 + 6 * 2] = 1; // Compute right upper triangular version of the matrix - Gauss elimination\n\n let n = 3;\n const k = n;\n let np;\n const kp = nc; // num rows\n\n let p;\n\n do {\n i = k - n;\n\n if (eqns[i + nc * i] === 0) {\n // the pivot is null, swap lines\n for (j = i + 1; j < k; j++) {\n if (eqns[i + nc * j] !== 0) {\n np = kp;\n\n do {\n // do line( i ) = line( i ) + line( k )\n p = kp - np;\n eqns[p + nc * i] += eqns[p + nc * j];\n } while (--np);\n\n break;\n }\n }\n }\n\n if (eqns[i + nc * i] !== 0) {\n for (j = i + 1; j < k; j++) {\n const multiplier = eqns[i + nc * j] / eqns[i + nc * i];\n np = kp;\n\n do {\n // do line( k ) = line( k ) - multiplier * line( i )\n p = kp - np;\n eqns[p + nc * j] = p <= i ? 0 : eqns[p + nc * j] - eqns[p + nc * i] * multiplier;\n } while (--np);\n }\n }\n } while (--n); // eliminate the upper left triangle of the matrix\n\n\n i = 2;\n\n do {\n j = i - 1;\n\n do {\n const multiplier = eqns[i + nc * j] / eqns[i + nc * i];\n np = nc;\n\n do {\n p = nc - np;\n eqns[p + nc * j] = eqns[p + nc * j] - eqns[p + nc * i] * multiplier;\n } while (--np);\n } while (j--);\n } while (--i); // operations on the diagonal\n\n\n i = 2;\n\n do {\n const multiplier = 1 / eqns[i + nc * i];\n np = nc;\n\n do {\n p = nc - np;\n eqns[p + nc * i] = eqns[p + nc * i] * multiplier;\n } while (--np);\n } while (i--);\n\n i = 2;\n\n do {\n j = 2;\n\n do {\n p = eqns[nr + j + nc * i];\n\n if (isNaN(p) || p === Infinity) {\n throw \"Could not reverse! A=[\" + this.toString() + \"]\";\n }\n\n target.e(i, j, p);\n } while (j--);\n } while (i--);\n\n return target;\n }\n /**\n * Set the matrix from a quaterion\n */\n\n\n setRotationFromQuaternion(q) {\n const x = q.x;\n const y = q.y;\n const z = q.z;\n const w = q.w;\n const x2 = x + x;\n const y2 = y + y;\n const z2 = z + z;\n const xx = x * x2;\n const xy = x * y2;\n const xz = x * z2;\n const yy = y * y2;\n const yz = y * z2;\n const zz = z * z2;\n const wx = w * x2;\n const wy = w * y2;\n const wz = w * z2;\n const e = this.elements;\n e[3 * 0 + 0] = 1 - (yy + zz);\n e[3 * 0 + 1] = xy - wz;\n e[3 * 0 + 2] = xz + wy;\n e[3 * 1 + 0] = xy + wz;\n e[3 * 1 + 1] = 1 - (xx + zz);\n e[3 * 1 + 2] = yz - wx;\n e[3 * 2 + 0] = xz - wy;\n e[3 * 2 + 1] = yz + wx;\n e[3 * 2 + 2] = 1 - (xx + yy);\n return this;\n }\n /**\n * Transpose the matrix\n * @param target Optional. Where to store the result.\n * @return The target Mat3, or a new Mat3 if target was omitted.\n */\n\n\n transpose(target = new Mat3()) {\n const M = this.elements;\n const T = target.elements;\n let tmp; //Set diagonals\n\n T[0] = M[0];\n T[4] = M[4];\n T[8] = M[8];\n tmp = M[1];\n T[1] = M[3];\n T[3] = tmp;\n tmp = M[2];\n T[2] = M[6];\n T[6] = tmp;\n tmp = M[5];\n T[5] = M[7];\n T[7] = tmp;\n return target;\n }\n\n}\nconst reverse_eqns = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];\n\n/**\n * 3-dimensional vector\n * @example\n * const v = new Vec3(1, 2, 3)\n * console.log('x=' + v.x) // x=1\n */\n\nclass Vec3 {\n constructor(x = 0.0, y = 0.0, z = 0.0) {\n this.x = void 0;\n this.y = void 0;\n this.z = void 0;\n this.x = x;\n this.y = y;\n this.z = z;\n }\n /**\n * Vector cross product\n * @param target Optional target to save in.\n */\n\n\n cross(vector, target = new Vec3()) {\n const vx = vector.x;\n const vy = vector.y;\n const vz = vector.z;\n const x = this.x;\n const y = this.y;\n const z = this.z;\n target.x = y * vz - z * vy;\n target.y = z * vx - x * vz;\n target.z = x * vy - y * vx;\n return target;\n }\n /**\n * Set the vectors' 3 elements\n */\n\n\n set(x, y, z) {\n this.x = x;\n this.y = y;\n this.z = z;\n return this;\n }\n /**\n * Set all components of the vector to zero.\n */\n\n\n setZero() {\n this.x = this.y = this.z = 0;\n }\n /**\n * Vector addition\n */\n\n\n vadd(vector, target) {\n if (target) {\n target.x = vector.x + this.x;\n target.y = vector.y + this.y;\n target.z = vector.z + this.z;\n } else {\n return new Vec3(this.x + vector.x, this.y + vector.y, this.z + vector.z);\n }\n }\n /**\n * Vector subtraction\n * @param target Optional target to save in.\n */\n\n\n vsub(vector, target) {\n if (target) {\n target.x = this.x - vector.x;\n target.y = this.y - vector.y;\n target.z = this.z - vector.z;\n } else {\n return new Vec3(this.x - vector.x, this.y - vector.y, this.z - vector.z);\n }\n }\n /**\n * Get the cross product matrix a_cross from a vector, such that a x b = a_cross * b = c\n *\n * See {@link https://www8.cs.umu.se/kurser/TDBD24/VT06/lectures/Lecture6.pdf Umeå University Lecture}\n */\n\n\n crossmat() {\n return new Mat3([0, -this.z, this.y, this.z, 0, -this.x, -this.y, this.x, 0]);\n }\n /**\n * Normalize the vector. Note that this changes the values in the vector.\n * @return Returns the norm of the vector\n */\n\n\n normalize() {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n const n = Math.sqrt(x * x + y * y + z * z);\n\n if (n > 0.0) {\n const invN = 1 / n;\n this.x *= invN;\n this.y *= invN;\n this.z *= invN;\n } else {\n // Make something up\n this.x = 0;\n this.y = 0;\n this.z = 0;\n }\n\n return n;\n }\n /**\n * Get the version of this vector that is of length 1.\n * @param target Optional target to save in\n * @return Returns the unit vector\n */\n\n\n unit(target = new Vec3()) {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n let ninv = Math.sqrt(x * x + y * y + z * z);\n\n if (ninv > 0.0) {\n ninv = 1.0 / ninv;\n target.x = x * ninv;\n target.y = y * ninv;\n target.z = z * ninv;\n } else {\n target.x = 1;\n target.y = 0;\n target.z = 0;\n }\n\n return target;\n }\n /**\n * Get the length of the vector\n */\n\n\n length() {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n return Math.sqrt(x * x + y * y + z * z);\n }\n /**\n * Get the squared length of the vector.\n */\n\n\n lengthSquared() {\n return this.dot(this);\n }\n /**\n * Get distance from this point to another point\n */\n\n\n distanceTo(p) {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n const px = p.x;\n const py = p.y;\n const pz = p.z;\n return Math.sqrt((px - x) * (px - x) + (py - y) * (py - y) + (pz - z) * (pz - z));\n }\n /**\n * Get squared distance from this point to another point\n */\n\n\n distanceSquared(p) {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n const px = p.x;\n const py = p.y;\n const pz = p.z;\n return (px - x) * (px - x) + (py - y) * (py - y) + (pz - z) * (pz - z);\n }\n /**\n * Multiply all the components of the vector with a scalar.\n * @param target The vector to save the result in.\n */\n\n\n scale(scalar, target = new Vec3()) {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n target.x = scalar * x;\n target.y = scalar * y;\n target.z = scalar * z;\n return target;\n }\n /**\n * Multiply the vector with an other vector, component-wise.\n * @param target The vector to save the result in.\n */\n\n\n vmul(vector, target = new Vec3()) {\n target.x = vector.x * this.x;\n target.y = vector.y * this.y;\n target.z = vector.z * this.z;\n return target;\n }\n /**\n * Scale a vector and add it to this vector. Save the result in \"target\". (target = this + vector * scalar)\n * @param target The vector to save the result in.\n */\n\n\n addScaledVector(scalar, vector, target = new Vec3()) {\n target.x = this.x + scalar * vector.x;\n target.y = this.y + scalar * vector.y;\n target.z = this.z + scalar * vector.z;\n return target;\n }\n /**\n * Calculate dot product\n * @param vector\n */\n\n\n dot(vector) {\n return this.x * vector.x + this.y * vector.y + this.z * vector.z;\n }\n\n isZero() {\n return this.x === 0 && this.y === 0 && this.z === 0;\n }\n /**\n * Make the vector point in the opposite direction.\n * @param target Optional target to save in\n */\n\n\n negate(target = new Vec3()) {\n target.x = -this.x;\n target.y = -this.y;\n target.z = -this.z;\n return target;\n }\n /**\n * Compute two artificial tangents to the vector\n * @param t1 Vector object to save the first tangent in\n * @param t2 Vector object to save the second tangent in\n */\n\n\n tangents(t1, t2) {\n const norm = this.length();\n\n if (norm > 0.0) {\n const n = Vec3_tangents_n;\n const inorm = 1 / norm;\n n.set(this.x * inorm, this.y * inorm, this.z * inorm);\n const randVec = Vec3_tangents_randVec;\n\n if (Math.abs(n.x) < 0.9) {\n randVec.set(1, 0, 0);\n n.cross(randVec, t1);\n } else {\n randVec.set(0, 1, 0);\n n.cross(randVec, t1);\n }\n\n n.cross(t1, t2);\n } else {\n // The normal length is zero, make something up\n t1.set(1, 0, 0);\n t2.set(0, 1, 0);\n }\n }\n /**\n * Converts to a more readable format\n */\n\n\n toString() {\n return this.x + \",\" + this.y + \",\" + this.z;\n }\n /**\n * Converts to an array\n */\n\n\n toArray() {\n return [this.x, this.y, this.z];\n }\n /**\n * Copies value of source to this vector.\n */\n\n\n copy(vector) {\n this.x = vector.x;\n this.y = vector.y;\n this.z = vector.z;\n return this;\n }\n /**\n * Do a linear interpolation between two vectors\n * @param t A number between 0 and 1. 0 will make this function return u, and 1 will make it return v. Numbers in between will generate a vector in between them.\n */\n\n\n lerp(vector, t, target) {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n target.x = x + (vector.x - x) * t;\n target.y = y + (vector.y - y) * t;\n target.z = z + (vector.z - z) * t;\n }\n /**\n * Check if a vector equals is almost equal to another one.\n */\n\n\n almostEquals(vector, precision = 1e-6) {\n if (Math.abs(this.x - vector.x) > precision || Math.abs(this.y - vector.y) > precision || Math.abs(this.z - vector.z) > precision) {\n return false;\n }\n\n return true;\n }\n /**\n * Check if a vector is almost zero\n */\n\n\n almostZero(precision = 1e-6) {\n if (Math.abs(this.x) > precision || Math.abs(this.y) > precision || Math.abs(this.z) > precision) {\n return false;\n }\n\n return true;\n }\n /**\n * Check if the vector is anti-parallel to another vector.\n * @param precision Set to zero for exact comparisons\n */\n\n\n isAntiparallelTo(vector, precision) {\n this.negate(antip_neg);\n return antip_neg.almostEquals(vector, precision);\n }\n /**\n * Clone the vector\n */\n\n\n clone() {\n return new Vec3(this.x, this.y, this.z);\n }\n\n}\nVec3.ZERO = void 0;\nVec3.UNIT_X = void 0;\nVec3.UNIT_Y = void 0;\nVec3.UNIT_Z = void 0;\nVec3.ZERO = new Vec3(0, 0, 0);\nVec3.UNIT_X = new Vec3(1, 0, 0);\nVec3.UNIT_Y = new Vec3(0, 1, 0);\nVec3.UNIT_Z = new Vec3(0, 0, 1);\nconst Vec3_tangents_n = new Vec3();\nconst Vec3_tangents_randVec = new Vec3();\nconst antip_neg = new Vec3();\n\n/**\n * Axis aligned bounding box class.\n */\nclass AABB {\n /**\n * The lower bound of the bounding box\n */\n\n /**\n * The upper bound of the bounding box\n */\n constructor(options = {}) {\n this.lowerBound = void 0;\n this.upperBound = void 0;\n this.lowerBound = new Vec3();\n this.upperBound = new Vec3();\n\n if (options.lowerBound) {\n this.lowerBound.copy(options.lowerBound);\n }\n\n if (options.upperBound) {\n this.upperBound.copy(options.upperBound);\n }\n }\n /**\n * Set the AABB bounds from a set of points.\n * @param points An array of Vec3's.\n * @return The self object\n */\n\n\n setFromPoints(points, position, quaternion, skinSize) {\n const l = this.lowerBound;\n const u = this.upperBound;\n const q = quaternion; // Set to the first point\n\n l.copy(points[0]);\n\n if (q) {\n q.vmult(l, l);\n }\n\n u.copy(l);\n\n for (let i = 1; i < points.length; i++) {\n let p = points[i];\n\n if (q) {\n q.vmult(p, tmp$1);\n p = tmp$1;\n }\n\n if (p.x > u.x) {\n u.x = p.x;\n }\n\n if (p.x < l.x) {\n l.x = p.x;\n }\n\n if (p.y > u.y) {\n u.y = p.y;\n }\n\n if (p.y < l.y) {\n l.y = p.y;\n }\n\n if (p.z > u.z) {\n u.z = p.z;\n }\n\n if (p.z < l.z) {\n l.z = p.z;\n }\n } // Add offset\n\n\n if (position) {\n position.vadd(l, l);\n position.vadd(u, u);\n }\n\n if (skinSize) {\n l.x -= skinSize;\n l.y -= skinSize;\n l.z -= skinSize;\n u.x += skinSize;\n u.y += skinSize;\n u.z += skinSize;\n }\n\n return this;\n }\n /**\n * Copy bounds from an AABB to this AABB\n * @param aabb Source to copy from\n * @return The this object, for chainability\n */\n\n\n copy(aabb) {\n this.lowerBound.copy(aabb.lowerBound);\n this.upperBound.copy(aabb.upperBound);\n return this;\n }\n /**\n * Clone an AABB\n */\n\n\n clone() {\n return new AABB().copy(this);\n }\n /**\n * Extend this AABB so that it covers the given AABB too.\n */\n\n\n extend(aabb) {\n this.lowerBound.x = Math.min(this.lowerBound.x, aabb.lowerBound.x);\n this.upperBound.x = Math.max(this.upperBound.x, aabb.upperBound.x);\n this.lowerBound.y = Math.min(this.lowerBound.y, aabb.lowerBound.y);\n this.upperBound.y = Math.max(this.upperBound.y, aabb.upperBound.y);\n this.lowerBound.z = Math.min(this.lowerBound.z, aabb.lowerBound.z);\n this.upperBound.z = Math.max(this.upperBound.z, aabb.upperBound.z);\n }\n /**\n * Returns true if the given AABB overlaps this AABB.\n */\n\n\n overlaps(aabb) {\n const l1 = this.lowerBound;\n const u1 = this.upperBound;\n const l2 = aabb.lowerBound;\n const u2 = aabb.upperBound; // l2 u2\n // |---------|\n // |--------|\n // l1 u1\n\n const overlapsX = l2.x <= u1.x && u1.x <= u2.x || l1.x <= u2.x && u2.x <= u1.x;\n const overlapsY = l2.y <= u1.y && u1.y <= u2.y || l1.y <= u2.y && u2.y <= u1.y;\n const overlapsZ = l2.z <= u1.z && u1.z <= u2.z || l1.z <= u2.z && u2.z <= u1.z;\n return overlapsX && overlapsY && overlapsZ;\n } // Mostly for debugging\n\n\n volume() {\n const l = this.lowerBound;\n const u = this.upperBound;\n return (u.x - l.x) * (u.y - l.y) * (u.z - l.z);\n }\n /**\n * Returns true if the given AABB is fully contained in this AABB.\n */\n\n\n contains(aabb) {\n const l1 = this.lowerBound;\n const u1 = this.upperBound;\n const l2 = aabb.lowerBound;\n const u2 = aabb.upperBound; // l2 u2\n // |---------|\n // |---------------|\n // l1 u1\n\n return l1.x <= l2.x && u1.x >= u2.x && l1.y <= l2.y && u1.y >= u2.y && l1.z <= l2.z && u1.z >= u2.z;\n }\n\n getCorners(a, b, c, d, e, f, g, h) {\n const l = this.lowerBound;\n const u = this.upperBound;\n a.copy(l);\n b.set(u.x, l.y, l.z);\n c.set(u.x, u.y, l.z);\n d.set(l.x, u.y, u.z);\n e.set(u.x, l.y, u.z);\n f.set(l.x, u.y, l.z);\n g.set(l.x, l.y, u.z);\n h.copy(u);\n }\n /**\n * Get the representation of an AABB in another frame.\n * @return The \"target\" AABB object.\n */\n\n\n toLocalFrame(frame, target) {\n const corners = transformIntoFrame_corners;\n const a = corners[0];\n const b = corners[1];\n const c = corners[2];\n const d = corners[3];\n const e = corners[4];\n const f = corners[5];\n const g = corners[6];\n const h = corners[7]; // Get corners in current frame\n\n this.getCorners(a, b, c, d, e, f, g, h); // Transform them to new local frame\n\n for (let i = 0; i !== 8; i++) {\n const corner = corners[i];\n frame.pointToLocal(corner, corner);\n }\n\n return target.setFromPoints(corners);\n }\n /**\n * Get the representation of an AABB in the global frame.\n * @return The \"target\" AABB object.\n */\n\n\n toWorldFrame(frame, target) {\n const corners = transformIntoFrame_corners;\n const a = corners[0];\n const b = corners[1];\n const c = corners[2];\n const d = corners[3];\n const e = corners[4];\n const f = corners[5];\n const g = corners[6];\n const h = corners[7]; // Get corners in current frame\n\n this.getCorners(a, b, c, d, e, f, g, h); // Transform them to new local frame\n\n for (let i = 0; i !== 8; i++) {\n const corner = corners[i];\n frame.pointToWorld(corner, corner);\n }\n\n return target.setFromPoints(corners);\n }\n /**\n * Check if the AABB is hit by a ray.\n */\n\n\n overlapsRay(ray) {\n const {\n direction,\n from\n } = ray; // const t = 0\n // ray.direction is unit direction vector of ray\n\n const dirFracX = 1 / direction.x;\n const dirFracY = 1 / direction.y;\n const dirFracZ = 1 / direction.z; // this.lowerBound is the corner of AABB with minimal coordinates - left bottom, rt is maximal corner\n\n const t1 = (this.lowerBound.x - from.x) * dirFracX;\n const t2 = (this.upperBound.x - from.x) * dirFracX;\n const t3 = (this.lowerBound.y - from.y) * dirFracY;\n const t4 = (this.upperBound.y - from.y) * dirFracY;\n const t5 = (this.lowerBound.z - from.z) * dirFracZ;\n const t6 = (this.upperBound.z - from.z) * dirFracZ; // const tmin = Math.max(Math.max(Math.min(t1, t2), Math.min(t3, t4)));\n // const tmax = Math.min(Math.min(Math.max(t1, t2), Math.max(t3, t4)));\n\n const tmin = Math.max(Math.max(Math.min(t1, t2), Math.min(t3, t4)), Math.min(t5, t6));\n const tmax = Math.min(Math.min(Math.max(t1, t2), Math.max(t3, t4)), Math.max(t5, t6)); // if tmax < 0, ray (line) is intersecting AABB, but whole AABB is behing us\n\n if (tmax < 0) {\n //t = tmax;\n return false;\n } // if tmin > tmax, ray doesn't intersect AABB\n\n\n if (tmin > tmax) {\n //t = tmax;\n return false;\n }\n\n return true;\n }\n\n}\nconst tmp$1 = new Vec3();\nconst transformIntoFrame_corners = [new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3()];\n\n/**\n * Collision \"matrix\".\n * It's actually a triangular-shaped array of whether two bodies are touching this step, for reference next step\n */\nclass ArrayCollisionMatrix {\n /**\n * The matrix storage.\n */\n constructor() {\n this.matrix = void 0;\n this.matrix = [];\n }\n /**\n * Get an element\n */\n\n\n get(bi, bj) {\n let {\n index: i\n } = bi;\n let {\n index: j\n } = bj;\n\n if (j > i) {\n const temp = j;\n j = i;\n i = temp;\n }\n\n return this.matrix[(i * (i + 1) >> 1) + j - 1];\n }\n /**\n * Set an element\n */\n\n\n set(bi, bj, value) {\n let {\n index: i\n } = bi;\n let {\n index: j\n } = bj;\n\n if (j > i) {\n const temp = j;\n j = i;\n i = temp;\n }\n\n this.matrix[(i * (i + 1) >> 1) + j - 1] = value ? 1 : 0;\n }\n /**\n * Sets all elements to zero\n */\n\n\n reset() {\n for (let i = 0, l = this.matrix.length; i !== l; i++) {\n this.matrix[i] = 0;\n }\n }\n /**\n * Sets the max number of objects\n */\n\n\n setNumObjects(n) {\n this.matrix.length = n * (n - 1) >> 1;\n }\n\n}\n\n/**\n * Base class for objects that dispatches events.\n */\nclass EventTarget {\n constructor() {\n this._listeners = void 0;\n }\n\n /**\n * Add an event listener\n * @return The self object, for chainability.\n */\n addEventListener(type, listener) {\n if (this._listeners === undefined) {\n this._listeners = {};\n }\n\n const listeners = this._listeners;\n\n if (listeners[type] === undefined) {\n listeners[type] = [];\n }\n\n if (!listeners[type].includes(listener)) {\n listeners[type].push(listener);\n }\n\n return this;\n }\n /**\n * Check if an event listener is added\n */\n\n\n hasEventListener(type, listener) {\n if (this._listeners === undefined) {\n return false;\n }\n\n const listeners = this._listeners;\n\n if (listeners[type] !== undefined && listeners[type].includes(listener)) {\n return true;\n }\n\n return false;\n }\n /**\n * Check if any event listener of the given type is added\n */\n\n\n hasAnyEventListener(type) {\n if (this._listeners === undefined) {\n return false;\n }\n\n const listeners = this._listeners;\n return listeners[type] !== undefined;\n }\n /**\n * Remove an event listener\n * @return The self object, for chainability.\n */\n\n\n removeEventListener(type, listener) {\n if (this._listeners === undefined) {\n return this;\n }\n\n const listeners = this._listeners;\n\n if (listeners[type] === undefined) {\n return this;\n }\n\n const index = listeners[type].indexOf(listener);\n\n if (index !== -1) {\n listeners[type].splice(index, 1);\n }\n\n return this;\n }\n /**\n * Emit an event.\n * @return The self object, for chainability.\n */\n\n\n dispatchEvent(event) {\n if (this._listeners === undefined) {\n return this;\n }\n\n const listeners = this._listeners;\n const listenerArray = listeners[event.type];\n\n if (listenerArray !== undefined) {\n event.target = this;\n\n for (let i = 0, l = listenerArray.length; i < l; i++) {\n listenerArray[i].call(this, event);\n }\n }\n\n return this;\n }\n\n}\n\n/**\n * A Quaternion describes a rotation in 3D space. The Quaternion is mathematically defined as Q = x*i + y*j + z*k + w, where (i,j,k) are imaginary basis vectors. (x,y,z) can be seen as a vector related to the axis of rotation, while the real multiplier, w, is related to the amount of rotation.\n * @param x Multiplier of the imaginary basis vector i.\n * @param y Multiplier of the imaginary basis vector j.\n * @param z Multiplier of the imaginary basis vector k.\n * @param w Multiplier of the real part.\n * @see http://en.wikipedia.org/wiki/Quaternion\n */\n\nclass Quaternion {\n constructor(x = 0, y = 0, z = 0, w = 1) {\n this.x = void 0;\n this.y = void 0;\n this.z = void 0;\n this.w = void 0;\n this.x = x;\n this.y = y;\n this.z = z;\n this.w = w;\n }\n /**\n * Set the value of the quaternion.\n */\n\n\n set(x, y, z, w) {\n this.x = x;\n this.y = y;\n this.z = z;\n this.w = w;\n return this;\n }\n /**\n * Convert to a readable format\n * @return \"x,y,z,w\"\n */\n\n\n toString() {\n return this.x + \",\" + this.y + \",\" + this.z + \",\" + this.w;\n }\n /**\n * Convert to an Array\n * @return [x, y, z, w]\n */\n\n\n toArray() {\n return [this.x, this.y, this.z, this.w];\n }\n /**\n * Set the quaternion components given an axis and an angle in radians.\n */\n\n\n setFromAxisAngle(vector, angle) {\n const s = Math.sin(angle * 0.5);\n this.x = vector.x * s;\n this.y = vector.y * s;\n this.z = vector.z * s;\n this.w = Math.cos(angle * 0.5);\n return this;\n }\n /**\n * Converts the quaternion to [ axis, angle ] representation.\n * @param targetAxis A vector object to reuse for storing the axis.\n * @return An array, first element is the axis and the second is the angle in radians.\n */\n\n\n toAxisAngle(targetAxis = new Vec3()) {\n this.normalize(); // if w>1 acos and sqrt will produce errors, this cant happen if quaternion is normalised\n\n const angle = 2 * Math.acos(this.w);\n const s = Math.sqrt(1 - this.w * this.w); // assuming quaternion normalised then w is less than 1, so term always positive.\n\n if (s < 0.001) {\n // test to avoid divide by zero, s is always positive due to sqrt\n // if s close to zero then direction of axis not important\n targetAxis.x = this.x; // if it is important that axis is normalised then replace with x=1; y=z=0;\n\n targetAxis.y = this.y;\n targetAxis.z = this.z;\n } else {\n targetAxis.x = this.x / s; // normalise axis\n\n targetAxis.y = this.y / s;\n targetAxis.z = this.z / s;\n }\n\n return [targetAxis, angle];\n }\n /**\n * Set the quaternion value given two vectors. The resulting rotation will be the needed rotation to rotate u to v.\n */\n\n\n setFromVectors(u, v) {\n if (u.isAntiparallelTo(v)) {\n const t1 = sfv_t1;\n const t2 = sfv_t2;\n u.tangents(t1, t2);\n this.setFromAxisAngle(t1, Math.PI);\n } else {\n const a = u.cross(v);\n this.x = a.x;\n this.y = a.y;\n this.z = a.z;\n this.w = Math.sqrt(u.length() ** 2 * v.length() ** 2) + u.dot(v);\n this.normalize();\n }\n\n return this;\n }\n /**\n * Multiply the quaternion with an other quaternion.\n */\n\n\n mult(quat, target = new Quaternion()) {\n const ax = this.x;\n const ay = this.y;\n const az = this.z;\n const aw = this.w;\n const bx = quat.x;\n const by = quat.y;\n const bz = quat.z;\n const bw = quat.w;\n target.x = ax * bw + aw * bx + ay * bz - az * by;\n target.y = ay * bw + aw * by + az * bx - ax * bz;\n target.z = az * bw + aw * bz + ax * by - ay * bx;\n target.w = aw * bw - ax * bx - ay * by - az * bz;\n return target;\n }\n /**\n * Get the inverse quaternion rotation.\n */\n\n\n inverse(target = new Quaternion()) {\n const x = this.x;\n const y = this.y;\n const z = this.z;\n const w = this.w;\n this.conjugate(target);\n const inorm2 = 1 / (x * x + y * y + z * z + w * w);\n target.x *= inorm2;\n target.y *= inorm2;\n target.z *= inorm2;\n target.w *= inorm2;\n return target;\n }\n /**\n * Get the quaternion conjugate\n */\n\n\n conjugate(target = new Quaternion()) {\n target.x = -this.x;\n target.y = -this.y;\n target.z = -this.z;\n target.w = this.w;\n return target;\n }\n /**\n * Normalize the quaternion. Note that this changes the values of the quaternion.\n */\n\n\n normalize() {\n let l = Math.sqrt(this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w);\n\n if (l === 0) {\n this.x = 0;\n this.y = 0;\n this.z = 0;\n this.w = 0;\n } else {\n l = 1 / l;\n this.x *= l;\n this.y *= l;\n this.z *= l;\n this.w *= l;\n }\n\n return this;\n }\n /**\n * Approximation of quaternion normalization. Works best when quat is already almost-normalized.\n * @author unphased, https://github.com/unphased\n */\n\n\n normalizeFast() {\n const f = (3.0 - (this.x * this.x + this.y * this.y + this.z * this.z + this.w * this.w)) / 2.0;\n\n if (f === 0) {\n this.x = 0;\n this.y = 0;\n this.z = 0;\n this.w = 0;\n } else {\n this.x *= f;\n this.y *= f;\n this.z *= f;\n this.w *= f;\n }\n\n return this;\n }\n /**\n * Multiply the quaternion by a vector\n */\n\n\n vmult(v, target = new Vec3()) {\n const x = v.x;\n const y = v.y;\n const z = v.z;\n const qx = this.x;\n const qy = this.y;\n const qz = this.z;\n const qw = this.w; // q*v\n\n const ix = qw * x + qy * z - qz * y;\n const iy = qw * y + qz * x - qx * z;\n const iz = qw * z + qx * y - qy * x;\n const iw = -qx * x - qy * y - qz * z;\n target.x = ix * qw + iw * -qx + iy * -qz - iz * -qy;\n target.y = iy * qw + iw * -qy + iz * -qx - ix * -qz;\n target.z = iz * qw + iw * -qz + ix * -qy - iy * -qx;\n return target;\n }\n /**\n * Copies value of source to this quaternion.\n * @return this\n */\n\n\n copy(quat) {\n this.x = quat.x;\n this.y = quat.y;\n this.z = quat.z;\n this.w = quat.w;\n return this;\n }\n /**\n * Convert the quaternion to euler angle representation. Order: YZX, as this page describes: https://www.euclideanspace.com/maths/standards/index.htm\n * @param order Three-character string, defaults to \"YZX\"\n */\n\n\n toEuler(target, order = 'YZX') {\n let heading;\n let attitude;\n let bank;\n const x = this.x;\n const y = this.y;\n const z = this.z;\n const w = this.w;\n\n switch (order) {\n case 'YZX':\n const test = x * y + z * w;\n\n if (test > 0.499) {\n // singularity at north pole\n heading = 2 * Math.atan2(x, w);\n attitude = Math.PI / 2;\n bank = 0;\n }\n\n if (test < -0.499) {\n // singularity at south pole\n heading = -2 * Math.atan2(x, w);\n attitude = -Math.PI / 2;\n bank = 0;\n }\n\n if (heading === undefined) {\n const sqx = x * x;\n const sqy = y * y;\n const sqz = z * z;\n heading = Math.atan2(2 * y * w - 2 * x * z, 1 - 2 * sqy - 2 * sqz); // Heading\n\n attitude = Math.asin(2 * test); // attitude\n\n bank = Math.atan2(2 * x * w - 2 * y * z, 1 - 2 * sqx - 2 * sqz); // bank\n }\n\n break;\n\n default:\n throw new Error(\"Euler order \" + order + \" not supported yet.\");\n }\n\n target.y = heading;\n target.z = attitude;\n target.x = bank;\n }\n /**\n * @param order The order to apply angles: 'XYZ' or 'YXZ' or any other combination.\n *\n * See {@link https://www.mathworks.com/matlabcentral/fileexchange/20696-function-to-convert-between-dcm-euler-angles-quaternions-and-euler-vectors MathWorks} reference\n */\n\n\n setFromEuler(x, y, z, order = 'XYZ') {\n const c1 = Math.cos(x / 2);\n const c2 = Math.cos(y / 2);\n const c3 = Math.cos(z / 2);\n const s1 = Math.sin(x / 2);\n const s2 = Math.sin(y / 2);\n const s3 = Math.sin(z / 2);\n\n if (order === 'XYZ') {\n this.x = s1 * c2 * c3 + c1 * s2 * s3;\n this.y = c1 * s2 * c3 - s1 * c2 * s3;\n this.z = c1 * c2 * s3 + s1 * s2 * c3;\n this.w = c1 * c2 * c3 - s1 * s2 * s3;\n } else if (order === 'YXZ') {\n this.x = s1 * c2 * c3 + c1 * s2 * s3;\n this.y = c1 * s2 * c3 - s1 * c2 * s3;\n this.z = c1 * c2 * s3 - s1 * s2 * c3;\n this.w = c1 * c2 * c3 + s1 * s2 * s3;\n } else if (order === 'ZXY') {\n this.x = s1 * c2 * c3 - c1 * s2 * s3;\n this.y = c1 * s2 * c3 + s1 * c2 * s3;\n this.z = c1 * c2 * s3 + s1 * s2 * c3;\n this.w = c1 * c2 * c3 - s1 * s2 * s3;\n } else if (order === 'ZYX') {\n this.x = s1 * c2 * c3 - c1 * s2 * s3;\n this.y = c1 * s2 * c3 + s1 * c2 * s3;\n this.z = c1 * c2 * s3 - s1 * s2 * c3;\n this.w = c1 * c2 * c3 + s1 * s2 * s3;\n } else if (order === 'YZX') {\n this.x = s1 * c2 * c3 + c1 * s2 * s3;\n this.y = c1 * s2 * c3 + s1 * c2 * s3;\n this.z = c1 * c2 * s3 - s1 * s2 * c3;\n this.w = c1 * c2 * c3 - s1 * s2 * s3;\n } else if (order === 'XZY') {\n this.x = s1 * c2 * c3 - c1 * s2 * s3;\n this.y = c1 * s2 * c3 - s1 * c2 * s3;\n this.z = c1 * c2 * s3 + s1 * s2 * c3;\n this.w = c1 * c2 * c3 + s1 * s2 * s3;\n }\n\n return this;\n }\n\n clone() {\n return new Quaternion(this.x, this.y, this.z, this.w);\n }\n /**\n * Performs a spherical linear interpolation between two quat\n *\n * @param toQuat second operand\n * @param t interpolation amount between the self quaternion and toQuat\n * @param target A quaternion to store the result in. If not provided, a new one will be created.\n * @returns {Quaternion} The \"target\" object\n */\n\n\n slerp(toQuat, t, target = new Quaternion()) {\n const ax = this.x;\n const ay = this.y;\n const az = this.z;\n const aw = this.w;\n let bx = toQuat.x;\n let by = toQuat.y;\n let bz = toQuat.z;\n let bw = toQuat.w;\n let omega;\n let cosom;\n let sinom;\n let scale0;\n let scale1; // calc cosine\n\n cosom = ax * bx + ay * by + az * bz + aw * bw; // adjust signs (if necessary)\n\n if (cosom < 0.0) {\n cosom = -cosom;\n bx = -bx;\n by = -by;\n bz = -bz;\n bw = -bw;\n } // calculate coefficients\n\n\n if (1.0 - cosom > 0.000001) {\n // standard case (slerp)\n omega = Math.acos(cosom);\n sinom = Math.sin(omega);\n scale0 = Math.sin((1.0 - t) * omega) / sinom;\n scale1 = Math.sin(t * omega) / sinom;\n } else {\n // \"from\" and \"to\" quaternions are very close\n // ... so we can do a linear interpolation\n scale0 = 1.0 - t;\n scale1 = t;\n } // calculate final values\n\n\n target.x = scale0 * ax + scale1 * bx;\n target.y = scale0 * ay + scale1 * by;\n target.z = scale0 * az + scale1 * bz;\n target.w = scale0 * aw + scale1 * bw;\n return target;\n }\n /**\n * Rotate an absolute orientation quaternion given an angular velocity and a time step.\n */\n\n\n integrate(angularVelocity, dt, angularFactor, target = new Quaternion()) {\n const ax = angularVelocity.x * angularFactor.x,\n ay = angularVelocity.y * angularFactor.y,\n az = angularVelocity.z * angularFactor.z,\n bx = this.x,\n by = this.y,\n bz = this.z,\n bw = this.w;\n const half_dt = dt * 0.5;\n target.x += half_dt * (ax * bw + ay * bz - az * by);\n target.y += half_dt * (ay * bw + az * bx - ax * bz);\n target.z += half_dt * (az * bw + ax * by - ay * bx);\n target.w += half_dt * (-ax * bx - ay * by - az * bz);\n return target;\n }\n\n}\nconst sfv_t1 = new Vec3();\nconst sfv_t2 = new Vec3();\n\n/**\n * The available shape types.\n */\nconst SHAPE_TYPES = {\n /** SPHERE */\n SPHERE: 1,\n\n /** PLANE */\n PLANE: 2,\n\n /** BOX */\n BOX: 4,\n\n /** COMPOUND */\n COMPOUND: 8,\n\n /** CONVEXPOLYHEDRON */\n CONVEXPOLYHEDRON: 16,\n\n /** HEIGHTFIELD */\n HEIGHTFIELD: 32,\n\n /** PARTICLE */\n PARTICLE: 64,\n\n /** CYLINDER */\n CYLINDER: 128,\n\n /** TRIMESH */\n TRIMESH: 256\n};\n/**\n * ShapeType\n */\n\n/**\n * Base class for shapes\n */\nclass Shape {\n /**\n * Identifier of the Shape.\n */\n\n /**\n * The type of this shape. Must be set to an int > 0 by subclasses.\n */\n\n /**\n * The local bounding sphere radius of this shape.\n */\n\n /**\n * Whether to produce contact forces when in contact with other bodies. Note that contacts will be generated, but they will be disabled.\n * @default true\n */\n\n /**\n * @default 1\n */\n\n /**\n * @default -1\n */\n\n /**\n * Optional material of the shape that regulates contact properties.\n */\n\n /**\n * The body to which the shape is added to.\n */\n\n /**\n * All the Shape types.\n */\n constructor(options = {}) {\n this.id = void 0;\n this.type = void 0;\n this.boundingSphereRadius = void 0;\n this.collisionResponse = void 0;\n this.collisionFilterGroup = void 0;\n this.collisionFilterMask = void 0;\n this.material = void 0;\n this.body = void 0;\n this.id = Shape.idCounter++;\n this.type = options.type || 0;\n this.boundingSphereRadius = 0;\n this.collisionResponse = options.collisionResponse ? options.collisionResponse : true;\n this.collisionFilterGroup = options.collisionFilterGroup !== undefined ? options.collisionFilterGroup : 1;\n this.collisionFilterMask = options.collisionFilterMask !== undefined ? options.collisionFilterMask : -1;\n this.material = options.material ? options.material : null;\n this.body = null;\n }\n /**\n * Computes the bounding sphere radius.\n * The result is stored in the property `.boundingSphereRadius`\n */\n\n\n updateBoundingSphereRadius() {\n throw \"computeBoundingSphereRadius() not implemented for shape type \" + this.type;\n }\n /**\n * Get the volume of this shape\n */\n\n\n volume() {\n throw \"volume() not implemented for shape type \" + this.type;\n }\n /**\n * Calculates the inertia in the local frame for this shape.\n * @see http://en.wikipedia.org/wiki/List_of_moments_of_inertia\n */\n\n\n calculateLocalInertia(mass, target) {\n throw \"calculateLocalInertia() not implemented for shape type \" + this.type;\n }\n /**\n * @todo use abstract for these kind of methods\n */\n\n\n calculateWorldAABB(pos, quat, min, max) {\n throw \"calculateWorldAABB() not implemented for shape type \" + this.type;\n }\n\n}\nShape.idCounter = 0;\nShape.types = SHAPE_TYPES;\n\n/**\n * Transformation utilities.\n */\nclass Transform {\n /**\n * position\n */\n\n /**\n * quaternion\n */\n constructor(options = {}) {\n this.position = void 0;\n this.quaternion = void 0;\n this.position = new Vec3();\n this.quaternion = new Quaternion();\n\n if (options.position) {\n this.position.copy(options.position);\n }\n\n if (options.quaternion) {\n this.quaternion.copy(options.quaternion);\n }\n }\n /**\n * Get a global point in local transform coordinates.\n */\n\n\n pointToLocal(worldPoint, result) {\n return Transform.pointToLocalFrame(this.position, this.quaternion, worldPoint, result);\n }\n /**\n * Get a local point in global transform coordinates.\n */\n\n\n pointToWorld(localPoint, result) {\n return Transform.pointToWorldFrame(this.position, this.quaternion, localPoint, result);\n }\n /**\n * vectorToWorldFrame\n */\n\n\n vectorToWorldFrame(localVector, result = new Vec3()) {\n this.quaternion.vmult(localVector, result);\n return result;\n }\n /**\n * pointToLocalFrame\n */\n\n\n static pointToLocalFrame(position, quaternion, worldPoint, result = new Vec3()) {\n worldPoint.vsub(position, result);\n quaternion.conjugate(tmpQuat$1);\n tmpQuat$1.vmult(result, result);\n return result;\n }\n /**\n * pointToWorldFrame\n */\n\n\n static pointToWorldFrame(position, quaternion, localPoint, result = new Vec3()) {\n quaternion.vmult(localPoint, result);\n result.vadd(position, result);\n return result;\n }\n /**\n * vectorToWorldFrame\n */\n\n\n static vectorToWorldFrame(quaternion, localVector, result = new Vec3()) {\n quaternion.vmult(localVector, result);\n return result;\n }\n /**\n * vectorToLocalFrame\n */\n\n\n static vectorToLocalFrame(position, quaternion, worldVector, result = new Vec3()) {\n quaternion.w *= -1;\n quaternion.vmult(worldVector, result);\n quaternion.w *= -1;\n return result;\n }\n\n}\nconst tmpQuat$1 = new Quaternion();\n\n/**\n * A set of polygons describing a convex shape.\n *\n * The shape MUST be convex for the code to work properly. No polygons may be coplanar (contained\n * in the same 3D plane), instead these should be merged into one polygon.\n *\n * @author qiao / https://github.com/qiao (original author, see https://github.com/qiao/three.js/commit/85026f0c769e4000148a67d45a9e9b9c5108836f)\n * @author schteppe / https://github.com/schteppe\n * @see https://www.altdevblogaday.com/2011/05/13/contact-generation-between-3d-convex-meshes/\n *\n * @todo Move the clipping functions to ContactGenerator?\n * @todo Automatically merge coplanar polygons in constructor.\n * @example\n * const convexShape = new CANNON.ConvexPolyhedron({ vertices, faces })\n * const convexBody = new CANNON.Body({ mass: 1, shape: convexShape })\n * world.addBody(convexBody)\n */\nclass ConvexPolyhedron extends Shape {\n /** vertices */\n\n /**\n * Array of integer arrays, indicating which vertices each face consists of\n */\n\n /** faceNormals */\n\n /** worldVertices */\n\n /** worldVerticesNeedsUpdate */\n\n /** worldFaceNormals */\n\n /** worldFaceNormalsNeedsUpdate */\n\n /**\n * If given, these locally defined, normalized axes are the only ones being checked when doing separating axis check.\n */\n\n /** uniqueEdges */\n\n /**\n * @param vertices An array of Vec3's\n * @param faces Array of integer arrays, describing which vertices that is included in each face.\n */\n constructor(props = {}) {\n const {\n vertices = [],\n faces = [],\n normals = [],\n axes,\n boundingSphereRadius\n } = props;\n super({\n type: Shape.types.CONVEXPOLYHEDRON\n });\n this.vertices = void 0;\n this.faces = void 0;\n this.faceNormals = void 0;\n this.worldVertices = void 0;\n this.worldVerticesNeedsUpdate = void 0;\n this.worldFaceNormals = void 0;\n this.worldFaceNormalsNeedsUpdate = void 0;\n this.uniqueAxes = void 0;\n this.uniqueEdges = void 0;\n this.vertices = vertices;\n this.faces = faces;\n this.faceNormals = normals;\n\n if (this.faceNormals.length === 0) {\n this.computeNormals();\n }\n\n if (!boundingSphereRadius) {\n this.updateBoundingSphereRadius();\n } else {\n this.boundingSphereRadius = boundingSphereRadius;\n }\n\n this.worldVertices = []; // World transformed version of .vertices\n\n this.worldVerticesNeedsUpdate = true;\n this.worldFaceNormals = []; // World transformed version of .faceNormals\n\n this.worldFaceNormalsNeedsUpdate = true;\n this.uniqueAxes = axes ? axes.slice() : null;\n this.uniqueEdges = [];\n this.computeEdges();\n }\n /**\n * Computes uniqueEdges\n */\n\n\n computeEdges() {\n const faces = this.faces;\n const vertices = this.vertices;\n const edges = this.uniqueEdges;\n edges.length = 0;\n const edge = new Vec3();\n\n for (let i = 0; i !== faces.length; i++) {\n const face = faces[i];\n const numVertices = face.length;\n\n for (let j = 0; j !== numVertices; j++) {\n const k = (j + 1) % numVertices;\n vertices[face[j]].vsub(vertices[face[k]], edge);\n edge.normalize();\n let found = false;\n\n for (let p = 0; p !== edges.length; p++) {\n if (edges[p].almostEquals(edge) || edges[p].almostEquals(edge)) {\n found = true;\n break;\n }\n }\n\n if (!found) {\n edges.push(edge.clone());\n }\n }\n }\n }\n /**\n * Compute the normals of the faces.\n * Will reuse existing Vec3 objects in the `faceNormals` array if they exist.\n */\n\n\n computeNormals() {\n this.faceNormals.length = this.faces.length; // Generate normals\n\n for (let i = 0; i < this.faces.length; i++) {\n // Check so all vertices exists for this face\n for (let j = 0; j < this.faces[i].length; j++) {\n if (!this.vertices[this.faces[i][j]]) {\n throw new Error(\"Vertex \" + this.faces[i][j] + \" not found!\");\n }\n }\n\n const n = this.faceNormals[i] || new Vec3();\n this.getFaceNormal(i, n);\n n.negate(n);\n this.faceNormals[i] = n;\n const vertex = this.vertices[this.faces[i][0]];\n\n if (n.dot(vertex) < 0) {\n console.error(\".faceNormals[\" + i + \"] = Vec3(\" + n.toString() + \") looks like it points into the shape? The vertices follow. Make sure they are ordered CCW around the normal, using the right hand rule.\");\n\n for (let j = 0; j < this.faces[i].length; j++) {\n console.warn(\".vertices[\" + this.faces[i][j] + \"] = Vec3(\" + this.vertices[this.faces[i][j]].toString() + \")\");\n }\n }\n }\n }\n /**\n * Compute the normal of a face from its vertices\n */\n\n\n getFaceNormal(i, target) {\n const f = this.faces[i];\n const va = this.vertices[f[0]];\n const vb = this.vertices[f[1]];\n const vc = this.vertices[f[2]];\n ConvexPolyhedron.computeNormal(va, vb, vc, target);\n }\n /**\n * Get face normal given 3 vertices\n */\n\n\n static computeNormal(va, vb, vc, target) {\n const cb = new Vec3();\n const ab = new Vec3();\n vb.vsub(va, ab);\n vc.vsub(vb, cb);\n cb.cross(ab, target);\n\n if (!target.isZero()) {\n target.normalize();\n }\n }\n /**\n * @param minDist Clamp distance\n * @param result The an array of contact point objects, see clipFaceAgainstHull\n */\n\n\n clipAgainstHull(posA, quatA, hullB, posB, quatB, separatingNormal, minDist, maxDist, result) {\n const WorldNormal = new Vec3();\n let closestFaceB = -1;\n let dmax = -Number.MAX_VALUE;\n\n for (let face = 0; face < hullB.faces.length; face++) {\n WorldNormal.copy(hullB.faceNormals[face]);\n quatB.vmult(WorldNormal, WorldNormal);\n const d = WorldNormal.dot(separatingNormal);\n\n if (d > dmax) {\n dmax = d;\n closestFaceB = face;\n }\n }\n\n const worldVertsB1 = [];\n\n for (let i = 0; i < hullB.faces[closestFaceB].length; i++) {\n const b = hullB.vertices[hullB.faces[closestFaceB][i]];\n const worldb = new Vec3();\n worldb.copy(b);\n quatB.vmult(worldb, worldb);\n posB.vadd(worldb, worldb);\n worldVertsB1.push(worldb);\n }\n\n if (closestFaceB >= 0) {\n this.clipFaceAgainstHull(separatingNormal, posA, quatA, worldVertsB1, minDist, maxDist, result);\n }\n }\n /**\n * Find the separating axis between this hull and another\n * @param target The target vector to save the axis in\n * @return Returns false if a separation is found, else true\n */\n\n\n findSeparatingAxis(hullB, posA, quatA, posB, quatB, target, faceListA, faceListB) {\n const faceANormalWS3 = new Vec3();\n const Worldnormal1 = new Vec3();\n const deltaC = new Vec3();\n const worldEdge0 = new Vec3();\n const worldEdge1 = new Vec3();\n const Cross = new Vec3();\n let dmin = Number.MAX_VALUE;\n const hullA = this;\n\n if (!hullA.uniqueAxes) {\n const numFacesA = faceListA ? faceListA.length : hullA.faces.length; // Test face normals from hullA\n\n for (let i = 0; i < numFacesA; i++) {\n const fi = faceListA ? faceListA[i] : i; // Get world face normal\n\n faceANormalWS3.copy(hullA.faceNormals[fi]);\n quatA.vmult(faceANormalWS3, faceANormalWS3);\n const d = hullA.testSepAxis(faceANormalWS3, hullB, posA, quatA, posB, quatB);\n\n if (d === false) {\n return false;\n }\n\n if (d < dmin) {\n dmin = d;\n target.copy(faceANormalWS3);\n }\n }\n } else {\n // Test unique axes\n for (let i = 0; i !== hullA.uniqueAxes.length; i++) {\n // Get world axis\n quatA.vmult(hullA.uniqueAxes[i], faceANormalWS3);\n const d = hullA.testSepAxis(faceANormalWS3, hullB, posA, quatA, posB, quatB);\n\n if (d === false) {\n return false;\n }\n\n if (d < dmin) {\n dmin = d;\n target.copy(faceANormalWS3);\n }\n }\n }\n\n if (!hullB.uniqueAxes) {\n // Test face normals from hullB\n const numFacesB = faceListB ? faceListB.length : hullB.faces.length;\n\n for (let i = 0; i < numFacesB; i++) {\n const fi = faceListB ? faceListB[i] : i;\n Worldnormal1.copy(hullB.faceNormals[fi]);\n quatB.vmult(Worldnormal1, Worldnormal1);\n const d = hullA.testSepAxis(Worldnormal1, hullB, posA, quatA, posB, quatB);\n\n if (d === false) {\n return false;\n }\n\n if (d < dmin) {\n dmin = d;\n target.copy(Worldnormal1);\n }\n }\n } else {\n // Test unique axes in B\n for (let i = 0; i !== hullB.uniqueAxes.length; i++) {\n quatB.vmult(hullB.uniqueAxes[i], Worldnormal1);\n const d = hullA.testSepAxis(Worldnormal1, hullB, posA, quatA, posB, quatB);\n\n if (d === false) {\n return false;\n }\n\n if (d < dmin) {\n dmin = d;\n target.copy(Worldnormal1);\n }\n }\n } // Test edges\n\n\n for (let e0 = 0; e0 !== hullA.uniqueEdges.length; e0++) {\n // Get world edge\n quatA.vmult(hullA.uniqueEdges[e0], worldEdge0);\n\n for (let e1 = 0; e1 !== hullB.uniqueEdges.length; e1++) {\n // Get world edge 2\n quatB.vmult(hullB.uniqueEdges[e1], worldEdge1);\n worldEdge0.cross(worldEdge1, Cross);\n\n if (!Cross.almostZero()) {\n Cross.normalize();\n const dist = hullA.testSepAxis(Cross, hullB, posA, quatA, posB, quatB);\n\n if (dist === false) {\n return false;\n }\n\n if (dist < dmin) {\n dmin = dist;\n target.copy(Cross);\n }\n }\n }\n }\n\n posB.vsub(posA, deltaC);\n\n if (deltaC.dot(target) > 0.0) {\n target.negate(target);\n }\n\n return true;\n }\n /**\n * Test separating axis against two hulls. Both hulls are projected onto the axis and the overlap size is returned if there is one.\n * @return The overlap depth, or FALSE if no penetration.\n */\n\n\n testSepAxis(axis, hullB, posA, quatA, posB, quatB) {\n const hullA = this;\n ConvexPolyhedron.project(hullA, axis, posA, quatA, maxminA);\n ConvexPolyhedron.project(hullB, axis, posB, quatB, maxminB);\n const maxA = maxminA[0];\n const minA = maxminA[1];\n const maxB = maxminB[0];\n const minB = maxminB[1];\n\n if (maxA < minB || maxB < minA) {\n return false; // Separated\n }\n\n const d0 = maxA - minB;\n const d1 = maxB - minA;\n const depth = d0 < d1 ? d0 : d1;\n return depth;\n }\n /**\n * calculateLocalInertia\n */\n\n\n calculateLocalInertia(mass, target) {\n // Approximate with box inertia\n // Exact inertia calculation is overkill, but see http://geometrictools.com/Documentation/PolyhedralMassProperties.pdf for the correct way to do it\n const aabbmax = new Vec3();\n const aabbmin = new Vec3();\n this.computeLocalAABB(aabbmin, aabbmax);\n const x = aabbmax.x - aabbmin.x;\n const y = aabbmax.y - aabbmin.y;\n const z = aabbmax.z - aabbmin.z;\n target.x = 1.0 / 12.0 * mass * (2 * y * 2 * y + 2 * z * 2 * z);\n target.y = 1.0 / 12.0 * mass * (2 * x * 2 * x + 2 * z * 2 * z);\n target.z = 1.0 / 12.0 * mass * (2 * y * 2 * y + 2 * x * 2 * x);\n }\n /**\n * @param face_i Index of the face\n */\n\n\n getPlaneConstantOfFace(face_i) {\n const f = this.faces[face_i];\n const n = this.faceNormals[face_i];\n const v = this.vertices[f[0]];\n const c = -n.dot(v);\n return c;\n }\n /**\n * Clip a face against a hull.\n * @param worldVertsB1 An array of Vec3 with vertices in the world frame.\n * @param minDist Distance clamping\n * @param Array result Array to store resulting contact points in. Will be objects with properties: point, depth, normal. These are represented in world coordinates.\n */\n\n\n clipFaceAgainstHull(separatingNormal, posA, quatA, worldVertsB1, minDist, maxDist, result) {\n const faceANormalWS = new Vec3();\n const edge0 = new Vec3();\n const WorldEdge0 = new Vec3();\n const worldPlaneAnormal1 = new Vec3();\n const planeNormalWS1 = new Vec3();\n const worldA1 = new Vec3();\n const localPlaneNormal = new Vec3();\n const planeNormalWS = new Vec3();\n const hullA = this;\n const worldVertsB2 = [];\n const pVtxIn = worldVertsB1;\n const pVtxOut = worldVertsB2;\n let closestFaceA = -1;\n let dmin = Number.MAX_VALUE; // Find the face with normal closest to the separating axis\n\n for (let face = 0; face < hullA.faces.length; face++) {\n faceANormalWS.copy(hullA.faceNormals[face]);\n quatA.vmult(faceANormalWS, faceANormalWS);\n const d = faceANormalWS.dot(separatingNormal);\n\n if (d < dmin) {\n dmin = d;\n closestFaceA = face;\n }\n }\n\n if (closestFaceA < 0) {\n return;\n } // Get the face and construct connected faces\n\n\n const polyA = hullA.faces[closestFaceA];\n polyA.connectedFaces = [];\n\n for (let i = 0; i < hullA.faces.length; i++) {\n for (let j = 0; j < hullA.faces[i].length; j++) {\n if (\n /* Sharing a vertex*/\n polyA.indexOf(hullA.faces[i][j]) !== -1 &&\n /* Not the one we are looking for connections from */\n i !== closestFaceA &&\n /* Not already added */\n polyA.connectedFaces.indexOf(i) === -1) {\n polyA.connectedFaces.push(i);\n }\n }\n } // Clip the polygon to the back of the planes of all faces of hull A,\n // that are adjacent to the witness face\n\n\n const numVerticesA = polyA.length;\n\n for (let i = 0; i < numVerticesA; i++) {\n const a = hullA.vertices[polyA[i]];\n const b = hullA.vertices[polyA[(i + 1) % numVerticesA]];\n a.vsub(b, edge0);\n WorldEdge0.copy(edge0);\n quatA.vmult(WorldEdge0, WorldEdge0);\n posA.vadd(WorldEdge0, WorldEdge0);\n worldPlaneAnormal1.copy(this.faceNormals[closestFaceA]);\n quatA.vmult(worldPlaneAnormal1, worldPlaneAnormal1);\n posA.vadd(worldPlaneAnormal1, worldPlaneAnormal1);\n WorldEdge0.cross(worldPlaneAnormal1, planeNormalWS1);\n planeNormalWS1.negate(planeNormalWS1);\n worldA1.copy(a);\n quatA.vmult(worldA1, worldA1);\n posA.vadd(worldA1, worldA1);\n const otherFace = polyA.connectedFaces[i];\n localPlaneNormal.copy(this.faceNormals[otherFace]);\n const localPlaneEq = this.getPlaneConstantOfFace(otherFace);\n planeNormalWS.copy(localPlaneNormal);\n quatA.vmult(planeNormalWS, planeNormalWS);\n const planeEqWS = localPlaneEq - planeNormalWS.dot(posA); // Clip face against our constructed plane\n\n this.clipFaceAgainstPlane(pVtxIn, pVtxOut, planeNormalWS, planeEqWS); // Throw away all clipped points, but save the remaining until next clip\n\n while (pVtxIn.length) {\n pVtxIn.shift();\n }\n\n while (pVtxOut.length) {\n pVtxIn.push(pVtxOut.shift());\n }\n } // only keep contact points that are behind the witness face\n\n\n localPlaneNormal.copy(this.faceNormals[closestFaceA]);\n const localPlaneEq = this.getPlaneConstantOfFace(closestFaceA);\n planeNormalWS.copy(localPlaneNormal);\n quatA.vmult(planeNormalWS, planeNormalWS);\n const planeEqWS = localPlaneEq - planeNormalWS.dot(posA);\n\n for (let i = 0; i < pVtxIn.length; i++) {\n let depth = planeNormalWS.dot(pVtxIn[i]) + planeEqWS; // ???\n\n if (depth <= minDist) {\n console.log(\"clamped: depth=\" + depth + \" to minDist=\" + minDist);\n depth = minDist;\n }\n\n if (depth <= maxDist) {\n const point = pVtxIn[i];\n\n if (depth <= 1e-6) {\n const p = {\n point,\n normal: planeNormalWS,\n depth\n };\n result.push(p);\n }\n }\n }\n }\n /**\n * Clip a face in a hull against the back of a plane.\n * @param planeConstant The constant in the mathematical plane equation\n */\n\n\n clipFaceAgainstPlane(inVertices, outVertices, planeNormal, planeConstant) {\n let n_dot_first;\n let n_dot_last;\n const numVerts = inVertices.length;\n\n if (numVerts < 2) {\n return outVertices;\n }\n\n let firstVertex = inVertices[inVertices.length - 1];\n let lastVertex = inVertices[0];\n n_dot_first = planeNormal.dot(firstVertex) + planeConstant;\n\n for (let vi = 0; vi < numVerts; vi++) {\n lastVertex = inVertices[vi];\n n_dot_last = planeNormal.dot(lastVertex) + planeConstant;\n\n if (n_dot_first < 0) {\n if (n_dot_last < 0) {\n // Start < 0, end < 0, so output lastVertex\n const newv = new Vec3();\n newv.copy(lastVertex);\n outVertices.push(newv);\n } else {\n // Start < 0, end >= 0, so output intersection\n const newv = new Vec3();\n firstVertex.lerp(lastVertex, n_dot_first / (n_dot_first - n_dot_last), newv);\n outVertices.push(newv);\n }\n } else {\n if (n_dot_last < 0) {\n // Start >= 0, end < 0 so output intersection and end\n const newv = new Vec3();\n firstVertex.lerp(lastVertex, n_dot_first / (n_dot_first - n_dot_last), newv);\n outVertices.push(newv);\n outVertices.push(lastVertex);\n }\n }\n\n firstVertex = lastVertex;\n n_dot_first = n_dot_last;\n }\n\n return outVertices;\n }\n /**\n * Updates `.worldVertices` and sets `.worldVerticesNeedsUpdate` to false.\n */\n\n\n computeWorldVertices(position, quat) {\n while (this.worldVertices.length < this.vertices.length) {\n this.worldVertices.push(new Vec3());\n }\n\n const verts = this.vertices;\n const worldVerts = this.worldVertices;\n\n for (let i = 0; i !== this.vertices.length; i++) {\n quat.vmult(verts[i], worldVerts[i]);\n position.vadd(worldVerts[i], worldVerts[i]);\n }\n\n this.worldVerticesNeedsUpdate = false;\n }\n\n computeLocalAABB(aabbmin, aabbmax) {\n const vertices = this.vertices;\n aabbmin.set(Number.MAX_VALUE, Number.MAX_VALUE, Number.MAX_VALUE);\n aabbmax.set(-Number.MAX_VALUE, -Number.MAX_VALUE, -Number.MAX_VALUE);\n\n for (let i = 0; i < this.vertices.length; i++) {\n const v = vertices[i];\n\n if (v.x < aabbmin.x) {\n aabbmin.x = v.x;\n } else if (v.x > aabbmax.x) {\n aabbmax.x = v.x;\n }\n\n if (v.y < aabbmin.y) {\n aabbmin.y = v.y;\n } else if (v.y > aabbmax.y) {\n aabbmax.y = v.y;\n }\n\n if (v.z < aabbmin.z) {\n aabbmin.z = v.z;\n } else if (v.z > aabbmax.z) {\n aabbmax.z = v.z;\n }\n }\n }\n /**\n * Updates `worldVertices` and sets `worldVerticesNeedsUpdate` to false.\n */\n\n\n computeWorldFaceNormals(quat) {\n const N = this.faceNormals.length;\n\n while (this.worldFaceNormals.length < N) {\n this.worldFaceNormals.push(new Vec3());\n }\n\n const normals = this.faceNormals;\n const worldNormals = this.worldFaceNormals;\n\n for (let i = 0; i !== N; i++) {\n quat.vmult(normals[i], worldNormals[i]);\n }\n\n this.worldFaceNormalsNeedsUpdate = false;\n }\n /**\n * updateBoundingSphereRadius\n */\n\n\n updateBoundingSphereRadius() {\n // Assume points are distributed with local (0,0,0) as center\n let max2 = 0;\n const verts = this.vertices;\n\n for (let i = 0; i !== verts.length; i++) {\n const norm2 = verts[i].lengthSquared();\n\n if (norm2 > max2) {\n max2 = norm2;\n }\n }\n\n this.boundingSphereRadius = Math.sqrt(max2);\n }\n /**\n * calculateWorldAABB\n */\n\n\n calculateWorldAABB(pos, quat, min, max) {\n const verts = this.vertices;\n let minx;\n let miny;\n let minz;\n let maxx;\n let maxy;\n let maxz;\n let tempWorldVertex = new Vec3();\n\n for (let i = 0; i < verts.length; i++) {\n tempWorldVertex.copy(verts[i]);\n quat.vmult(tempWorldVertex, tempWorldVertex);\n pos.vadd(tempWorldVertex, tempWorldVertex);\n const v = tempWorldVertex;\n\n if (minx === undefined || v.x < minx) {\n minx = v.x;\n }\n\n if (maxx === undefined || v.x > maxx) {\n maxx = v.x;\n }\n\n if (miny === undefined || v.y < miny) {\n miny = v.y;\n }\n\n if (maxy === undefined || v.y > maxy) {\n maxy = v.y;\n }\n\n if (minz === undefined || v.z < minz) {\n minz = v.z;\n }\n\n if (maxz === undefined || v.z > maxz) {\n maxz = v.z;\n }\n }\n\n min.set(minx, miny, minz);\n max.set(maxx, maxy, maxz);\n }\n /**\n * Get approximate convex volume\n */\n\n\n volume() {\n return 4.0 * Math.PI * this.boundingSphereRadius / 3.0;\n }\n /**\n * Get an average of all the vertices positions\n */\n\n\n getAveragePointLocal(target = new Vec3()) {\n const verts = this.vertices;\n\n for (let i = 0; i < verts.length; i++) {\n target.vadd(verts[i], target);\n }\n\n target.scale(1 / verts.length, target);\n return target;\n }\n /**\n * Transform all local points. Will change the .vertices\n */\n\n\n transformAllPoints(offset, quat) {\n const n = this.vertices.length;\n const verts = this.vertices; // Apply rotation\n\n if (quat) {\n // Rotate vertices\n for (let i = 0; i < n; i++) {\n const v = verts[i];\n quat.vmult(v, v);\n } // Rotate face normals\n\n\n for (let i = 0; i < this.faceNormals.length; i++) {\n const v = this.faceNormals[i];\n quat.vmult(v, v);\n }\n /*\n // Rotate edges\n for(let i=0; i<this.uniqueEdges.length; i++){\n const v = this.uniqueEdges[i];\n quat.vmult(v,v);\n }*/\n\n } // Apply offset\n\n\n if (offset) {\n for (let i = 0; i < n; i++) {\n const v = verts[i];\n v.vadd(offset, v);\n }\n }\n }\n /**\n * Checks whether p is inside the polyhedra. Must be in local coords.\n * The point lies outside of the convex hull of the other points if and only if the direction\n * of all the vectors from it to those other points are on less than one half of a sphere around it.\n * @param p A point given in local coordinates\n */\n\n\n pointIsInside(p) {\n const verts = this.vertices;\n const faces = this.faces;\n const normals = this.faceNormals;\n const pointInside = new Vec3();\n this.getAveragePointLocal(pointInside);\n\n for (let i = 0; i < this.faces.length; i++) {\n let n = normals[i];\n const v = verts[faces[i][0]]; // We only need one point in the face\n // This dot product determines which side of the edge the point is\n\n const vToP = new Vec3();\n p.vsub(v, vToP);\n const r1 = n.dot(vToP);\n const vToPointInside = new Vec3();\n pointInside.vsub(v, vToPointInside);\n const r2 = n.dot(vToPointInside);\n\n if (r1 < 0 && r2 > 0 || r1 > 0 && r2 < 0) {\n return false; // Encountered some other sign. Exit.\n }\n } // If we got here, all dot products were of the same sign.\n\n\n return -1;\n }\n /**\n * Get max and min dot product of a convex hull at position (pos,quat) projected onto an axis.\n * Results are saved in the array maxmin.\n * @param result result[0] and result[1] will be set to maximum and minimum, respectively.\n */\n\n\n static project(shape, axis, pos, quat, result) {\n const n = shape.vertices.length;\n const localAxis = project_localAxis;\n let max = 0;\n let min = 0;\n const localOrigin = project_localOrigin;\n const vs = shape.vertices;\n localOrigin.setZero(); // Transform the axis to local\n\n Transform.vectorToLocalFrame(pos, quat, axis, localAxis);\n Transform.pointToLocalFrame(pos, quat, localOrigin, localOrigin);\n const add = localOrigin.dot(localAxis);\n min = max = vs[0].dot(localAxis);\n\n for (let i = 1; i < n; i++) {\n const val = vs[i].dot(localAxis);\n\n if (val > max) {\n max = val;\n }\n\n if (val < min) {\n min = val;\n }\n }\n\n min -= add;\n max -= add;\n\n if (min > max) {\n // Inconsistent - swap\n const temp = min;\n min = max;\n max = temp;\n } // Output\n\n\n result[0] = max;\n result[1] = min;\n }\n\n}\nconst maxminA = [];\nconst maxminB = [];\nconst project_localAxis = new Vec3();\nconst project_localOrigin = new Vec3();\n\n/**\n * A 3d box shape.\n * @example\n * const size = 1\n * const halfExtents = new CANNON.Vec3(size, size, size)\n * const boxShape = new CANNON.Box(halfExtents)\n * const boxBody = new CANNON.Body({ mass: 1, shape: boxShape })\n * world.addBody(boxBody)\n */\nclass Box extends Shape {\n /**\n * The half extents of the box.\n */\n\n /**\n * Used by the contact generator to make contacts with other convex polyhedra for example.\n */\n constructor(halfExtents) {\n super({\n type: Shape.types.BOX\n });\n this.halfExtents = void 0;\n this.convexPolyhedronRepresentation = void 0;\n this.halfExtents = halfExtents;\n this.convexPolyhedronRepresentation = null;\n this.updateConvexPolyhedronRepresentation();\n this.updateBoundingSphereRadius();\n }\n /**\n * Updates the local convex polyhedron representation used for some collisions.\n */\n\n\n updateConvexPolyhedronRepresentation() {\n const sx = this.halfExtents.x;\n const sy = this.halfExtents.y;\n const sz = this.halfExtents.z;\n const V = Vec3;\n const vertices = [new V(-sx, -sy, -sz), new V(sx, -sy, -sz), new V(sx, sy, -sz), new V(-sx, sy, -sz), new V(-sx, -sy, sz), new V(sx, -sy, sz), new V(sx, sy, sz), new V(-sx, sy, sz)];\n const faces = [[3, 2, 1, 0], // -z\n [4, 5, 6, 7], // +z\n [5, 4, 0, 1], // -y\n [2, 3, 7, 6], // +y\n [0, 4, 7, 3], // -x\n [1, 2, 6, 5] // +x\n ];\n const axes = [new V(0, 0, 1), new V(0, 1, 0), new V(1, 0, 0)];\n const h = new ConvexPolyhedron({\n vertices,\n faces,\n axes\n });\n this.convexPolyhedronRepresentation = h;\n h.material = this.material;\n }\n /**\n * Calculate the inertia of the box.\n */\n\n\n calculateLocalInertia(mass, target = new Vec3()) {\n Box.calculateInertia(this.halfExtents, mass, target);\n return target;\n }\n\n static calculateInertia(halfExtents, mass, target) {\n const e = halfExtents;\n target.x = 1.0 / 12.0 * mass * (2 * e.y * 2 * e.y + 2 * e.z * 2 * e.z);\n target.y = 1.0 / 12.0 * mass * (2 * e.x * 2 * e.x + 2 * e.z * 2 * e.z);\n target.z = 1.0 / 12.0 * mass * (2 * e.y * 2 * e.y + 2 * e.x * 2 * e.x);\n }\n /**\n * Get the box 6 side normals\n * @param sixTargetVectors An array of 6 vectors, to store the resulting side normals in.\n * @param quat Orientation to apply to the normal vectors. If not provided, the vectors will be in respect to the local frame.\n */\n\n\n getSideNormals(sixTargetVectors, quat) {\n const sides = sixTargetVectors;\n const ex = this.halfExtents;\n sides[0].set(ex.x, 0, 0);\n sides[1].set(0, ex.y, 0);\n sides[2].set(0, 0, ex.z);\n sides[3].set(-ex.x, 0, 0);\n sides[4].set(0, -ex.y, 0);\n sides[5].set(0, 0, -ex.z);\n\n if (quat !== undefined) {\n for (let i = 0; i !== sides.length; i++) {\n quat.vmult(sides[i], sides[i]);\n }\n }\n\n return sides;\n }\n /**\n * Returns the volume of the box.\n */\n\n\n volume() {\n return 8.0 * this.halfExtents.x * this.halfExtents.y * this.halfExtents.z;\n }\n /**\n * updateBoundingSphereRadius\n */\n\n\n updateBoundingSphereRadius() {\n this.boundingSphereRadius = this.halfExtents.length();\n }\n /**\n * forEachWorldCorner\n */\n\n\n forEachWorldCorner(pos, quat, callback) {\n const e = this.halfExtents;\n const corners = [[e.x, e.y, e.z], [-e.x, e.y, e.z], [-e.x, -e.y, e.z], [-e.x, -e.y, -e.z], [e.x, -e.y, -e.z], [e.x, e.y, -e.z], [-e.x, e.y, -e.z], [e.x, -e.y, e.z]];\n\n for (let i = 0; i < corners.length; i++) {\n worldCornerTempPos.set(corners[i][0], corners[i][1], corners[i][2]);\n quat.vmult(worldCornerTempPos, worldCornerTempPos);\n pos.vadd(worldCornerTempPos, worldCornerTempPos);\n callback(worldCornerTempPos.x, worldCornerTempPos.y, worldCornerTempPos.z);\n }\n }\n /**\n * calculateWorldAABB\n */\n\n\n calculateWorldAABB(pos, quat, min, max) {\n const e = this.halfExtents;\n worldCornersTemp[0].set(e.x, e.y, e.z);\n worldCornersTemp[1].set(-e.x, e.y, e.z);\n worldCornersTemp[2].set(-e.x, -e.y, e.z);\n worldCornersTemp[3].set(-e.x, -e.y, -e.z);\n worldCornersTemp[4].set(e.x, -e.y, -e.z);\n worldCornersTemp[5].set(e.x, e.y, -e.z);\n worldCornersTemp[6].set(-e.x, e.y, -e.z);\n worldCornersTemp[7].set(e.x, -e.y, e.z);\n const wc = worldCornersTemp[0];\n quat.vmult(wc, wc);\n pos.vadd(wc, wc);\n max.copy(wc);\n min.copy(wc);\n\n for (let i = 1; i < 8; i++) {\n const wc = worldCornersTemp[i];\n quat.vmult(wc, wc);\n pos.vadd(wc, wc);\n const x = wc.x;\n const y = wc.y;\n const z = wc.z;\n\n if (x > max.x) {\n max.x = x;\n }\n\n if (y > max.y) {\n max.y = y;\n }\n\n if (z > max.z) {\n max.z = z;\n }\n\n if (x < min.x) {\n min.x = x;\n }\n\n if (y < min.y) {\n min.y = y;\n }\n\n if (z < min.z) {\n min.z = z;\n }\n } // Get each axis max\n // min.set(Infinity,Infinity,Infinity);\n // max.set(-Infinity,-Infinity,-Infinity);\n // this.forEachWorldCorner(pos,quat,function(x,y,z){\n // if(x > max.x){\n // max.x = x;\n // }\n // if(y > max.y){\n // max.y = y;\n // }\n // if(z > max.z){\n // max.z = z;\n // }\n // if(x < min.x){\n // min.x = x;\n // }\n // if(y < min.y){\n // min.y = y;\n // }\n // if(z < min.z){\n // min.z = z;\n // }\n // });\n\n }\n\n}\nconst worldCornerTempPos = new Vec3();\nconst worldCornersTemp = [new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3()];\n\n/**\n * BODY_TYPES\n */\nconst BODY_TYPES = {\n /** DYNAMIC */\n DYNAMIC: 1,\n\n /** STATIC */\n STATIC: 2,\n\n /** KINEMATIC */\n KINEMATIC: 4\n};\n/**\n * BodyType\n */\n\n/**\n * BODY_SLEEP_STATES\n */\nconst BODY_SLEEP_STATES = {\n /** AWAKE */\n AWAKE: 0,\n\n /** SLEEPY */\n SLEEPY: 1,\n\n /** SLEEPING */\n SLEEPING: 2\n};\n/**\n * BodySleepState\n */\n\n/**\n * Base class for all body types.\n * @example\n * const shape = new CANNON.Sphere(1)\n * const body = new CANNON.Body({\n * mass: 1,\n * shape,\n * })\n * world.addBody(body)\n */\nclass Body extends EventTarget {\n /**\n * Dispatched after two bodies collide. This event is dispatched on each\n * of the two bodies involved in the collision.\n * @event collide\n * @param body The body that was involved in the collision.\n * @param contact The details of the collision.\n */\n\n /**\n * A dynamic body is fully simulated. Can be moved manually by the user, but normally they move according to forces. A dynamic body can collide with all body types. A dynamic body always has finite, non-zero mass.\n */\n\n /**\n * A static body does not move during simulation and behaves as if it has infinite mass. Static bodies can be moved manually by setting the position of the body. The velocity of a static body is always zero. Static bodies do not collide with other static or kinematic bodies.\n */\n\n /**\n * A kinematic body moves under simulation according to its velocity. They do not respond to forces. They can be moved manually, but normally a kinematic body is moved by setting its velocity. A kinematic body behaves as if it has infinite mass. Kinematic bodies do not collide with other static or kinematic bodies.\n */\n\n /**\n * AWAKE\n */\n\n /**\n * SLEEPY\n */\n\n /**\n * SLEEPING\n */\n\n /**\n * Dispatched after a sleeping body has woken up.\n * @event wakeup\n */\n\n /**\n * Dispatched after a body has gone in to the sleepy state.\n * @event sleepy\n */\n\n /**\n * Dispatched after a body has fallen asleep.\n * @event sleep\n */\n\n /**\n * Identifier of the body.\n */\n\n /**\n * Position of body in World.bodies. Updated by World and used in ArrayCollisionMatrix.\n */\n\n /**\n * Reference to the world the body is living in.\n */\n\n /**\n * Callback function that is used BEFORE stepping the system. Use it to apply forces, for example. Inside the function, \"this\" will refer to this Body object. Deprecated - use World events instead.\n * @deprecated Use World events instead\n */\n\n /**\n * Callback function that is used AFTER stepping the system. Inside the function, \"this\" will refer to this Body object. Deprecated - use World events instead.\n * @deprecated Use World events instead\n */\n\n /**\n * The collision group the body belongs to.\n * @default 1\n */\n\n /**\n * The collision group the body can collide with.\n * @default -1\n */\n\n /**\n * Whether to produce contact forces when in contact with other bodies. Note that contacts will be generated, but they will be disabled - i.e. \"collide\" events will be raised, but forces will not be altered.\n */\n\n /**\n * World space position of the body.\n */\n\n /**\n * Interpolated position of the body.\n */\n\n /**\n * Initial position of the body.\n */\n\n /**\n * World space velocity of the body.\n */\n\n /**\n * Initial velocity of the body.\n */\n\n /**\n * Linear force on the body in world space.\n */\n\n /**\n * The mass of the body.\n * @default 0\n */\n\n /**\n * The physics material of the body. It defines the body interaction with other bodies.\n */\n\n /**\n * How much to damp the body velocity each step. It can go from 0 to 1.\n * @default 0.01\n */\n\n /**\n * One of: `Body.DYNAMIC`, `Body.STATIC` and `Body.KINEMATIC`.\n */\n\n /**\n * If true, the body will automatically fall to sleep.\n * @default true\n */\n\n /**\n * Current sleep state.\n */\n\n /**\n * If the speed (the norm of the velocity) is smaller than this value, the body is considered sleepy.\n * @default 0.1\n */\n\n /**\n * If the body has been sleepy for this sleepTimeLimit seconds, it is considered sleeping.\n * @default 1\n */\n\n /**\n * World space rotational force on the body, around center of mass.\n */\n\n /**\n * World space orientation of the body.\n */\n\n /**\n * Initial quaternion of the body.\n */\n\n /**\n * Interpolated orientation of the body.\n */\n\n /**\n * Angular velocity of the body, in world space. Think of the angular velocity as a vector, which the body rotates around. The length of this vector determines how fast (in radians per second) the body rotates.\n */\n\n /**\n * Initial angular velocity of the body.\n */\n\n /**\n * List of Shapes that have been added to the body.\n */\n\n /**\n * Position of each Shape in the body, given in local Body space.\n */\n\n /**\n * Orientation of each Shape, given in local Body space.\n */\n\n /**\n * The inertia of the body.\n */\n\n /**\n * Set to true if you don't want the body to rotate. Make sure to run .updateMassProperties() if you change this after the body creation.\n * @default false\n */\n\n /**\n * How much to damp the body angular velocity each step. It can go from 0 to 1.\n * @default 0.01\n */\n\n /**\n * Use this property to limit the motion along any world axis. (1,1,1) will allow motion along all axes while (0,0,0) allows none.\n */\n\n /**\n * Use this property to limit the rotational motion along any world axis. (1,1,1) will allow rotation along all axes while (0,0,0) allows none.\n */\n\n /**\n * World space bounding box of the body and its shapes.\n */\n\n /**\n * Indicates if the AABB needs to be updated before use.\n */\n\n /**\n * Total bounding radius of the Body including its shapes, relative to body.position.\n */\n\n /**\n * When true the body behaves like a trigger. It does not collide\n * with other bodies but collision events are still triggered.\n * @default false\n */\n constructor(options = {}) {\n super();\n this.id = void 0;\n this.index = void 0;\n this.world = void 0;\n this.preStep = void 0;\n this.postStep = void 0;\n this.vlambda = void 0;\n this.collisionFilterGroup = void 0;\n this.collisionFilterMask = void 0;\n this.collisionResponse = void 0;\n this.position = void 0;\n this.previousPosition = void 0;\n this.interpolatedPosition = void 0;\n this.initPosition = void 0;\n this.velocity = void 0;\n this.initVelocity = void 0;\n this.force = void 0;\n this.mass = void 0;\n this.invMass = void 0;\n this.material = void 0;\n this.linearDamping = void 0;\n this.type = void 0;\n this.allowSleep = void 0;\n this.sleepState = void 0;\n this.sleepSpeedLimit = void 0;\n this.sleepTimeLimit = void 0;\n this.timeLastSleepy = void 0;\n this.wakeUpAfterNarrowphase = void 0;\n this.torque = void 0;\n this.quaternion = void 0;\n this.initQuaternion = void 0;\n this.previousQuaternion = void 0;\n this.interpolatedQuaternion = void 0;\n this.angularVelocity = void 0;\n this.initAngularVelocity = void 0;\n this.shapes = void 0;\n this.shapeOffsets = void 0;\n this.shapeOrientations = void 0;\n this.inertia = void 0;\n this.invInertia = void 0;\n this.invInertiaWorld = void 0;\n this.invMassSolve = void 0;\n this.invInertiaSolve = void 0;\n this.invInertiaWorldSolve = void 0;\n this.fixedRotation = void 0;\n this.angularDamping = void 0;\n this.linearFactor = void 0;\n this.angularFactor = void 0;\n this.aabb = void 0;\n this.aabbNeedsUpdate = void 0;\n this.boundingRadius = void 0;\n this.wlambda = void 0;\n this.isTrigger = void 0;\n this.id = Body.idCounter++;\n this.index = -1;\n this.world = null;\n this.preStep = null;\n this.postStep = null;\n this.vlambda = new Vec3();\n this.collisionFilterGroup = typeof options.collisionFilterGroup === 'number' ? options.collisionFilterGroup : 1;\n this.collisionFilterMask = typeof options.collisionFilterMask === 'number' ? options.collisionFilterMask : -1;\n this.collisionResponse = typeof options.collisionResponse === 'boolean' ? options.collisionResponse : true;\n this.position = new Vec3();\n this.previousPosition = new Vec3();\n this.interpolatedPosition = new Vec3();\n this.initPosition = new Vec3();\n\n if (options.position) {\n this.position.copy(options.position);\n this.previousPosition.copy(options.position);\n this.interpolatedPosition.copy(options.position);\n this.initPosition.copy(options.position);\n }\n\n this.velocity = new Vec3();\n\n if (options.velocity) {\n this.velocity.copy(options.velocity);\n }\n\n this.initVelocity = new Vec3();\n this.force = new Vec3();\n const mass = typeof options.mass === 'number' ? options.mass : 0;\n this.mass = mass;\n this.invMass = mass > 0 ? 1.0 / mass : 0;\n this.material = options.material || null;\n this.linearDamping = typeof options.linearDamping === 'number' ? options.linearDamping : 0.01;\n this.type = mass <= 0.0 ? Body.STATIC : Body.DYNAMIC;\n\n if (typeof options.type === typeof Body.STATIC) {\n this.type = options.type;\n }\n\n this.allowSleep = typeof options.allowSleep !== 'undefined' ? options.allowSleep : true;\n this.sleepState = Body.AWAKE;\n this.sleepSpeedLimit = typeof options.sleepSpeedLimit !== 'undefined' ? options.sleepSpeedLimit : 0.1;\n this.sleepTimeLimit = typeof options.sleepTimeLimit !== 'undefined' ? options.sleepTimeLimit : 1;\n this.timeLastSleepy = 0;\n this.wakeUpAfterNarrowphase = false;\n this.torque = new Vec3();\n this.quaternion = new Quaternion();\n this.initQuaternion = new Quaternion();\n this.previousQuaternion = new Quaternion();\n this.interpolatedQuaternion = new Quaternion();\n\n if (options.quaternion) {\n this.quaternion.copy(options.quaternion);\n this.initQuaternion.copy(options.quaternion);\n this.previousQuaternion.copy(options.quaternion);\n this.interpolatedQuaternion.copy(options.quaternion);\n }\n\n this.angularVelocity = new Vec3();\n\n if (options.angularVelocity) {\n this.angularVelocity.copy(options.angularVelocity);\n }\n\n this.initAngularVelocity = new Vec3();\n this.shapes = [];\n this.shapeOffsets = [];\n this.shapeOrientations = [];\n this.inertia = new Vec3();\n this.invInertia = new Vec3();\n this.invInertiaWorld = new Mat3();\n this.invMassSolve = 0;\n this.invInertiaSolve = new Vec3();\n this.invInertiaWorldSolve = new Mat3();\n this.fixedRotation = typeof options.fixedRotation !== 'undefined' ? options.fixedRotation : false;\n this.angularDamping = typeof options.angularDamping !== 'undefined' ? options.angularDamping : 0.01;\n this.linearFactor = new Vec3(1, 1, 1);\n\n if (options.linearFactor) {\n this.linearFactor.copy(options.linearFactor);\n }\n\n this.angularFactor = new Vec3(1, 1, 1);\n\n if (options.angularFactor) {\n this.angularFactor.copy(options.angularFactor);\n }\n\n this.aabb = new AABB();\n this.aabbNeedsUpdate = true;\n this.boundingRadius = 0;\n this.wlambda = new Vec3();\n this.isTrigger = Boolean(options.isTrigger);\n\n if (options.shape) {\n this.addShape(options.shape);\n }\n\n this.updateMassProperties();\n }\n /**\n * Wake the body up.\n */\n\n\n wakeUp() {\n const prevState = this.sleepState;\n this.sleepState = Body.AWAKE;\n this.wakeUpAfterNarrowphase = false;\n\n if (prevState === Body.SLEEPING) {\n this.dispatchEvent(Body.wakeupEvent);\n }\n }\n /**\n * Force body sleep\n */\n\n\n sleep() {\n this.sleepState = Body.SLEEPING;\n this.velocity.set(0, 0, 0);\n this.angularVelocity.set(0, 0, 0);\n this.wakeUpAfterNarrowphase = false;\n }\n /**\n * Called every timestep to update internal sleep timer and change sleep state if needed.\n * @param time The world time in seconds\n */\n\n\n sleepTick(time) {\n if (this.allowSleep) {\n const sleepState = this.sleepState;\n const speedSquared = this.velocity.lengthSquared() + this.angularVelocity.lengthSquared();\n const speedLimitSquared = this.sleepSpeedLimit ** 2;\n\n if (sleepState === Body.AWAKE && speedSquared < speedLimitSquared) {\n this.sleepState = Body.SLEEPY; // Sleepy\n\n this.timeLastSleepy = time;\n this.dispatchEvent(Body.sleepyEvent);\n } else if (sleepState === Body.SLEEPY && speedSquared > speedLimitSquared) {\n this.wakeUp(); // Wake up\n } else if (sleepState === Body.SLEEPY && time - this.timeLastSleepy > this.sleepTimeLimit) {\n this.sleep(); // Sleeping\n\n this.dispatchEvent(Body.sleepEvent);\n }\n }\n }\n /**\n * If the body is sleeping, it should be immovable / have infinite mass during solve. We solve it by having a separate \"solve mass\".\n */\n\n\n updateSolveMassProperties() {\n if (this.sleepState === Body.SLEEPING || this.type === Body.KINEMATIC) {\n this.invMassSolve = 0;\n this.invInertiaSolve.setZero();\n this.invInertiaWorldSolve.setZero();\n } else {\n this.invMassSolve = this.invMass;\n this.invInertiaSolve.copy(this.invInertia);\n this.invInertiaWorldSolve.copy(this.invInertiaWorld);\n }\n }\n /**\n * Convert a world point to local body frame.\n */\n\n\n pointToLocalFrame(worldPoint, result = new Vec3()) {\n worldPoint.vsub(this.position, result);\n this.quaternion.conjugate().vmult(result, result);\n return result;\n }\n /**\n * Convert a world vector to local body frame.\n */\n\n\n vectorToLocalFrame(worldVector, result = new Vec3()) {\n this.quaternion.conjugate().vmult(worldVector, result);\n return result;\n }\n /**\n * Convert a local body point to world frame.\n */\n\n\n pointToWorldFrame(localPoint, result = new Vec3()) {\n this.quaternion.vmult(localPoint, result);\n result.vadd(this.position, result);\n return result;\n }\n /**\n * Convert a local body point to world frame.\n */\n\n\n vectorToWorldFrame(localVector, result = new Vec3()) {\n this.quaternion.vmult(localVector, result);\n return result;\n }\n /**\n * Add a shape to the body with a local offset and orientation.\n * @return The body object, for chainability.\n */\n\n\n addShape(shape, _offset, _orientation) {\n const offset = new Vec3();\n const orientation = new Quaternion();\n\n if (_offset) {\n offset.copy(_offset);\n }\n\n if (_orientation) {\n orientation.copy(_orientation);\n }\n\n this.shapes.push(shape);\n this.shapeOffsets.push(offset);\n this.shapeOrientations.push(orientation);\n this.updateMassProperties();\n this.updateBoundingRadius();\n this.aabbNeedsUpdate = true;\n shape.body = this;\n return this;\n }\n /**\n * Remove a shape from the body.\n * @return The body object, for chainability.\n */\n\n\n removeShape(shape) {\n const index = this.shapes.indexOf(shape);\n\n if (index === -1) {\n console.warn('Shape does not belong to the body');\n return this;\n }\n\n this.shapes.splice(index, 1);\n this.shapeOffsets.splice(index, 1);\n this.shapeOrientations.splice(index, 1);\n this.updateMassProperties();\n this.updateBoundingRadius();\n this.aabbNeedsUpdate = true;\n shape.body = null;\n return this;\n }\n /**\n * Update the bounding radius of the body. Should be done if any of the shapes are changed.\n */\n\n\n updateBoundingRadius() {\n const shapes = this.shapes;\n const shapeOffsets = this.shapeOffsets;\n const N = shapes.length;\n let radius = 0;\n\n for (let i = 0; i !== N; i++) {\n const shape = shapes[i];\n shape.updateBoundingSphereRadius();\n const offset = shapeOffsets[i].length();\n const r = shape.boundingSphereRadius;\n\n if (offset + r > radius) {\n radius = offset + r;\n }\n }\n\n this.boundingRadius = radius;\n }\n /**\n * Updates the .aabb\n */\n\n\n updateAABB() {\n const shapes = this.shapes;\n const shapeOffsets = this.shapeOffsets;\n const shapeOrientations = this.shapeOrientations;\n const N = shapes.length;\n const offset = tmpVec;\n const orientation = tmpQuat;\n const bodyQuat = this.quaternion;\n const aabb = this.aabb;\n const shapeAABB = updateAABB_shapeAABB;\n\n for (let i = 0; i !== N; i++) {\n const shape = shapes[i]; // Get shape world position\n\n bodyQuat.vmult(shapeOffsets[i], offset);\n offset.vadd(this.position, offset); // Get shape world quaternion\n\n bodyQuat.mult(shapeOrientations[i], orientation); // Get shape AABB\n\n shape.calculateWorldAABB(offset, orientation, shapeAABB.lowerBound, shapeAABB.upperBound);\n\n if (i === 0) {\n aabb.copy(shapeAABB);\n } else {\n aabb.extend(shapeAABB);\n }\n }\n\n this.aabbNeedsUpdate = false;\n }\n /**\n * Update `.inertiaWorld` and `.invInertiaWorld`\n */\n\n\n updateInertiaWorld(force) {\n const I = this.invInertia;\n\n if (I.x === I.y && I.y === I.z && !force) ; else {\n const m1 = uiw_m1;\n const m2 = uiw_m2;\n m1.setRotationFromQuaternion(this.quaternion);\n m1.transpose(m2);\n m1.scale(I, m1);\n m1.mmult(m2, this.invInertiaWorld);\n }\n }\n /**\n * Apply force to a point of the body. This could for example be a point on the Body surface.\n * Applying force this way will add to Body.force and Body.torque.\n * @param force The amount of force to add.\n * @param relativePoint A point relative to the center of mass to apply the force on.\n */\n\n\n applyForce(force, relativePoint = new Vec3()) {\n // Needed?\n if (this.type !== Body.DYNAMIC) {\n return;\n }\n\n if (this.sleepState === Body.SLEEPING) {\n this.wakeUp();\n } // Compute produced rotational force\n\n\n const rotForce = Body_applyForce_rotForce;\n relativePoint.cross(force, rotForce); // Add linear force\n\n this.force.vadd(force, this.force); // Add rotational force\n\n this.torque.vadd(rotForce, this.torque);\n }\n /**\n * Apply force to a local point in the body.\n * @param force The force vector to apply, defined locally in the body frame.\n * @param localPoint A local point in the body to apply the force on.\n */\n\n\n applyLocalForce(localForce, localPoint = new Vec3()) {\n if (this.type !== Body.DYNAMIC) {\n return;\n }\n\n const worldForce = Body_applyLocalForce_worldForce;\n const relativePointWorld = Body_applyLocalForce_relativePointWorld; // Transform the force vector to world space\n\n this.vectorToWorldFrame(localForce, worldForce);\n this.vectorToWorldFrame(localPoint, relativePointWorld);\n this.applyForce(worldForce, relativePointWorld);\n }\n /**\n * Apply torque to the body.\n * @param torque The amount of torque to add.\n */\n\n\n applyTorque(torque) {\n if (this.type !== Body.DYNAMIC) {\n return;\n }\n\n if (this.sleepState === Body.SLEEPING) {\n this.wakeUp();\n } // Add rotational force\n\n\n this.torque.vadd(torque, this.torque);\n }\n /**\n * Apply impulse to a point of the body. This could for example be a point on the Body surface.\n * An impulse is a force added to a body during a short period of time (impulse = force * time).\n * Impulses will be added to Body.velocity and Body.angularVelocity.\n * @param impulse The amount of impulse to add.\n * @param relativePoint A point relative to the center of mass to apply the force on.\n */\n\n\n applyImpulse(impulse, relativePoint = new Vec3()) {\n if (this.type !== Body.DYNAMIC) {\n return;\n }\n\n if (this.sleepState === Body.SLEEPING) {\n this.wakeUp();\n } // Compute point position relative to the body center\n\n\n const r = relativePoint; // Compute produced central impulse velocity\n\n const velo = Body_applyImpulse_velo;\n velo.copy(impulse);\n velo.scale(this.invMass, velo); // Add linear impulse\n\n this.velocity.vadd(velo, this.velocity); // Compute produced rotational impulse velocity\n\n const rotVelo = Body_applyImpulse_rotVelo;\n r.cross(impulse, rotVelo);\n /*\n rotVelo.x *= this.invInertia.x;\n rotVelo.y *= this.invInertia.y;\n rotVelo.z *= this.invInertia.z;\n */\n\n this.invInertiaWorld.vmult(rotVelo, rotVelo); // Add rotational Impulse\n\n this.angularVelocity.vadd(rotVelo, this.angularVelocity);\n }\n /**\n * Apply locally-defined impulse to a local point in the body.\n * @param force The force vector to apply, defined locally in the body frame.\n * @param localPoint A local point in the body to apply the force on.\n */\n\n\n applyLocalImpulse(localImpulse, localPoint = new Vec3()) {\n if (this.type !== Body.DYNAMIC) {\n return;\n }\n\n const worldImpulse = Body_applyLocalImpulse_worldImpulse;\n const relativePointWorld = Body_applyLocalImpulse_relativePoint; // Transform the force vector to world space\n\n this.vectorToWorldFrame(localImpulse, worldImpulse);\n this.vectorToWorldFrame(localPoint, relativePointWorld);\n this.applyImpulse(worldImpulse, relativePointWorld);\n }\n /**\n * Should be called whenever you change the body shape or mass.\n */\n\n\n updateMassProperties() {\n const halfExtents = Body_updateMassProperties_halfExtents;\n this.invMass = this.mass > 0 ? 1.0 / this.mass : 0;\n const I = this.inertia;\n const fixed = this.fixedRotation; // Approximate with AABB box\n\n this.updateAABB();\n halfExtents.set((this.aabb.upperBound.x - this.aabb.lowerBound.x) / 2, (this.aabb.upperBound.y - this.aabb.lowerBound.y) / 2, (this.aabb.upperBound.z - this.aabb.lowerBound.z) / 2);\n Box.calculateInertia(halfExtents, this.mass, I);\n this.invInertia.set(I.x > 0 && !fixed ? 1.0 / I.x : 0, I.y > 0 && !fixed ? 1.0 / I.y : 0, I.z > 0 && !fixed ? 1.0 / I.z : 0);\n this.updateInertiaWorld(true);\n }\n /**\n * Get world velocity of a point in the body.\n * @param worldPoint\n * @param result\n * @return The result vector.\n */\n\n\n getVelocityAtWorldPoint(worldPoint, result) {\n const r = new Vec3();\n worldPoint.vsub(this.position, r);\n this.angularVelocity.cross(r, result);\n this.velocity.vadd(result, result);\n return result;\n }\n /**\n * Move the body forward in time.\n * @param dt Time step\n * @param quatNormalize Set to true to normalize the body quaternion\n * @param quatNormalizeFast If the quaternion should be normalized using \"fast\" quaternion normalization\n */\n\n\n integrate(dt, quatNormalize, quatNormalizeFast) {\n // Save previous position\n this.previousPosition.copy(this.position);\n this.previousQuaternion.copy(this.quaternion);\n\n if (!(this.type === Body.DYNAMIC || this.type === Body.KINEMATIC) || this.sleepState === Body.SLEEPING) {\n // Only for dynamic\n return;\n }\n\n const velo = this.velocity;\n const angularVelo = this.angularVelocity;\n const pos = this.position;\n const force = this.force;\n const torque = this.torque;\n const quat = this.quaternion;\n const invMass = this.invMass;\n const invInertia = this.invInertiaWorld;\n const linearFactor = this.linearFactor;\n const iMdt = invMass * dt;\n velo.x += force.x * iMdt * linearFactor.x;\n velo.y += force.y * iMdt * linearFactor.y;\n velo.z += force.z * iMdt * linearFactor.z;\n const e = invInertia.elements;\n const angularFactor = this.angularFactor;\n const tx = torque.x * angularFactor.x;\n const ty = torque.y * angularFactor.y;\n const tz = torque.z * angularFactor.z;\n angularVelo.x += dt * (e[0] * tx + e[1] * ty + e[2] * tz);\n angularVelo.y += dt * (e[3] * tx + e[4] * ty + e[5] * tz);\n angularVelo.z += dt * (e[6] * tx + e[7] * ty + e[8] * tz); // Use new velocity - leap frog\n\n pos.x += velo.x * dt;\n pos.y += velo.y * dt;\n pos.z += velo.z * dt;\n quat.integrate(this.angularVelocity, dt, this.angularFactor, quat);\n\n if (quatNormalize) {\n if (quatNormalizeFast) {\n quat.normalizeFast();\n } else {\n quat.normalize();\n }\n }\n\n this.aabbNeedsUpdate = true; // Update world inertia\n\n this.updateInertiaWorld();\n }\n\n}\nBody.idCounter = 0;\nBody.COLLIDE_EVENT_NAME = 'collide';\nBody.DYNAMIC = BODY_TYPES.DYNAMIC;\nBody.STATIC = BODY_TYPES.STATIC;\nBody.KINEMATIC = BODY_TYPES.KINEMATIC;\nBody.AWAKE = BODY_SLEEP_STATES.AWAKE;\nBody.SLEEPY = BODY_SLEEP_STATES.SLEEPY;\nBody.SLEEPING = BODY_SLEEP_STATES.SLEEPING;\nBody.wakeupEvent = {\n type: 'wakeup'\n};\nBody.sleepyEvent = {\n type: 'sleepy'\n};\nBody.sleepEvent = {\n type: 'sleep'\n};\nconst tmpVec = new Vec3();\nconst tmpQuat = new Quaternion();\nconst updateAABB_shapeAABB = new AABB();\nconst uiw_m1 = new Mat3();\nconst uiw_m2 = new Mat3();\nconst Body_applyForce_rotForce = new Vec3();\nconst Body_applyLocalForce_worldForce = new Vec3();\nconst Body_applyLocalForce_relativePointWorld = new Vec3();\nconst Body_applyImpulse_velo = new Vec3();\nconst Body_applyImpulse_rotVelo = new Vec3();\nconst Body_applyLocalImpulse_worldImpulse = new Vec3();\nconst Body_applyLocalImpulse_relativePoint = new Vec3();\nconst Body_updateMassProperties_halfExtents = new Vec3();\n\n/**\n * Base class for broadphase implementations\n * @author schteppe\n */\nclass Broadphase {\n /**\n * The world to search for collisions in.\n */\n\n /**\n * If set to true, the broadphase uses bounding boxes for intersection tests, else it uses bounding spheres.\n */\n\n /**\n * Set to true if the objects in the world moved.\n */\n constructor() {\n this.world = void 0;\n this.useBoundingBoxes = void 0;\n this.dirty = void 0;\n this.world = null;\n this.useBoundingBoxes = false;\n this.dirty = true;\n }\n /**\n * Get the collision pairs from the world\n * @param world The world to search in\n * @param p1 Empty array to be filled with body objects\n * @param p2 Empty array to be filled with body objects\n */\n\n\n collisionPairs(world, p1, p2) {\n throw new Error('collisionPairs not implemented for this BroadPhase class!');\n }\n /**\n * Check if a body pair needs to be intersection tested at all.\n */\n\n\n needBroadphaseCollision(bodyA, bodyB) {\n // Check collision filter masks\n if ((bodyA.collisionFilterGroup & bodyB.collisionFilterMask) === 0 || (bodyB.collisionFilterGroup & bodyA.collisionFilterMask) === 0) {\n return false;\n } // Check types\n\n\n if (((bodyA.type & Body.STATIC) !== 0 || bodyA.sleepState === Body.SLEEPING) && ((bodyB.type & Body.STATIC) !== 0 || bodyB.sleepState === Body.SLEEPING)) {\n // Both bodies are static or sleeping. Skip.\n return false;\n }\n\n return true;\n }\n /**\n * Check if the bounding volumes of two bodies intersect.\n */\n\n\n intersectionTest(bodyA, bodyB, pairs1, pairs2) {\n if (this.useBoundingBoxes) {\n this.doBoundingBoxBroadphase(bodyA, bodyB, pairs1, pairs2);\n } else {\n this.doBoundingSphereBroadphase(bodyA, bodyB, pairs1, pairs2);\n }\n }\n /**\n * Check if the bounding spheres of two bodies are intersecting.\n * @param pairs1 bodyA is appended to this array if intersection\n * @param pairs2 bodyB is appended to this array if intersection\n */\n\n\n doBoundingSphereBroadphase(bodyA, bodyB, pairs1, pairs2) {\n const r = Broadphase_collisionPairs_r;\n bodyB.position.vsub(bodyA.position, r);\n const boundingRadiusSum2 = (bodyA.boundingRadius + bodyB.boundingRadius) ** 2;\n const norm2 = r.lengthSquared();\n\n if (norm2 < boundingRadiusSum2) {\n pairs1.push(bodyA);\n pairs2.push(bodyB);\n }\n }\n /**\n * Check if the bounding boxes of two bodies are intersecting.\n */\n\n\n doBoundingBoxBroadphase(bodyA, bodyB, pairs1, pairs2) {\n if (bodyA.aabbNeedsUpdate) {\n bodyA.updateAABB();\n }\n\n if (bodyB.aabbNeedsUpdate) {\n bodyB.updateAABB();\n } // Check AABB / AABB\n\n\n if (bodyA.aabb.overlaps(bodyB.aabb)) {\n pairs1.push(bodyA);\n pairs2.push(bodyB);\n }\n }\n /**\n * Removes duplicate pairs from the pair arrays.\n */\n\n\n makePairsUnique(pairs1, pairs2) {\n const t = Broadphase_makePairsUnique_temp;\n const p1 = Broadphase_makePairsUnique_p1;\n const p2 = Broadphase_makePairsUnique_p2;\n const N = pairs1.length;\n\n for (let i = 0; i !== N; i++) {\n p1[i] = pairs1[i];\n p2[i] = pairs2[i];\n }\n\n pairs1.length = 0;\n pairs2.length = 0;\n\n for (let i = 0; i !== N; i++) {\n const id1 = p1[i].id;\n const id2 = p2[i].id;\n const key = id1 < id2 ? id1 + \",\" + id2 : id2 + \",\" + id1;\n t[key] = i;\n t.keys.push(key);\n }\n\n for (let i = 0; i !== t.keys.length; i++) {\n const key = t.keys.pop();\n const pairIndex = t[key];\n pairs1.push(p1[pairIndex]);\n pairs2.push(p2[pairIndex]);\n delete t[key];\n }\n }\n /**\n * To be implemented by subcasses\n */\n\n\n setWorld(world) {}\n /**\n * Check if the bounding spheres of two bodies overlap.\n */\n\n\n static boundingSphereCheck(bodyA, bodyB) {\n const dist = new Vec3(); // bsc_dist;\n\n bodyA.position.vsub(bodyB.position, dist);\n const sa = bodyA.shapes[0];\n const sb = bodyB.shapes[0];\n return Math.pow(sa.boundingSphereRadius + sb.boundingSphereRadius, 2) > dist.lengthSquared();\n }\n /**\n * Returns all the bodies within the AABB.\n */\n\n\n aabbQuery(world, aabb, result) {\n console.warn('.aabbQuery is not implemented in this Broadphase subclass.');\n return [];\n }\n\n} // Temp objects\n\nconst Broadphase_collisionPairs_r = new Vec3();\nconst Broadphase_makePairsUnique_temp = {\n keys: []\n};\nconst Broadphase_makePairsUnique_p1 = [];\nconst Broadphase_makePairsUnique_p2 = [];\n\n/**\n * Axis aligned uniform grid broadphase.\n * @todo Needs support for more than just planes and spheres.\n */\nclass GridBroadphase extends Broadphase {\n /**\n * Number of boxes along x\n */\n\n /**\n * Number of boxes along y\n */\n\n /**\n * Number of boxes along z\n */\n\n /**\n * aabbMin\n */\n\n /**\n * aabbMax\n */\n\n /**\n * bins\n */\n\n /**\n * binLengths\n */\n\n /**\n * @param nx Number of boxes along x.\n * @param ny Number of boxes along y.\n * @param nz Number of boxes along z.\n */\n constructor(aabbMin = new Vec3(100, 100, 100), aabbMax = new Vec3(-100, -100, -100), nx = 10, ny = 10, nz = 10) {\n super();\n this.nx = void 0;\n this.ny = void 0;\n this.nz = void 0;\n this.aabbMin = void 0;\n this.aabbMax = void 0;\n this.bins = void 0;\n this.binLengths = void 0;\n this.nx = nx;\n this.ny = ny;\n this.nz = nz;\n this.aabbMin = aabbMin;\n this.aabbMax = aabbMax;\n const nbins = this.nx * this.ny * this.nz;\n\n if (nbins <= 0) {\n throw \"GridBroadphase: Each dimension's n must be >0\";\n }\n\n this.bins = [];\n this.binLengths = []; // Rather than continually resizing arrays (thrashing the memory), just record length and allow them to grow\n\n this.bins.length = nbins;\n this.binLengths.length = nbins;\n\n for (let i = 0; i < nbins; i++) {\n this.bins[i] = [];\n this.binLengths[i] = 0;\n }\n }\n /**\n * Get all the collision pairs in the physics world\n */\n\n\n collisionPairs(world, pairs1, pairs2) {\n const N = world.numObjects();\n const bodies = world.bodies;\n const max = this.aabbMax;\n const min = this.aabbMin;\n const nx = this.nx;\n const ny = this.ny;\n const nz = this.nz;\n const xstep = ny * nz;\n const ystep = nz;\n const zstep = 1;\n const xmax = max.x;\n const ymax = max.y;\n const zmax = max.z;\n const xmin = min.x;\n const ymin = min.y;\n const zmin = min.z;\n const xmult = nx / (xmax - xmin);\n const ymult = ny / (ymax - ymin);\n const zmult = nz / (zmax - zmin);\n const binsizeX = (xmax - xmin) / nx;\n const binsizeY = (ymax - ymin) / ny;\n const binsizeZ = (zmax - zmin) / nz;\n const binRadius = Math.sqrt(binsizeX * binsizeX + binsizeY * binsizeY + binsizeZ * binsizeZ) * 0.5;\n const types = Shape.types;\n const SPHERE = types.SPHERE;\n const PLANE = types.PLANE;\n types.BOX;\n types.COMPOUND;\n types.CONVEXPOLYHEDRON;\n const bins = this.bins;\n const binLengths = this.binLengths;\n const Nbins = this.bins.length; // Reset bins\n\n for (let i = 0; i !== Nbins; i++) {\n binLengths[i] = 0;\n }\n\n const ceil = Math.ceil;\n\n function addBoxToBins(x0, y0, z0, x1, y1, z1, bi) {\n let xoff0 = (x0 - xmin) * xmult | 0;\n let yoff0 = (y0 - ymin) * ymult | 0;\n let zoff0 = (z0 - zmin) * zmult | 0;\n let xoff1 = ceil((x1 - xmin) * xmult);\n let yoff1 = ceil((y1 - ymin) * ymult);\n let zoff1 = ceil((z1 - zmin) * zmult);\n\n if (xoff0 < 0) {\n xoff0 = 0;\n } else if (xoff0 >= nx) {\n xoff0 = nx - 1;\n }\n\n if (yoff0 < 0) {\n yoff0 = 0;\n } else if (yoff0 >= ny) {\n yoff0 = ny - 1;\n }\n\n if (zoff0 < 0) {\n zoff0 = 0;\n } else if (zoff0 >= nz) {\n zoff0 = nz - 1;\n }\n\n if (xoff1 < 0) {\n xoff1 = 0;\n } else if (xoff1 >= nx) {\n xoff1 = nx - 1;\n }\n\n if (yoff1 < 0) {\n yoff1 = 0;\n } else if (yoff1 >= ny) {\n yoff1 = ny - 1;\n }\n\n if (zoff1 < 0) {\n zoff1 = 0;\n } else if (zoff1 >= nz) {\n zoff1 = nz - 1;\n }\n\n xoff0 *= xstep;\n yoff0 *= ystep;\n zoff0 *= zstep;\n xoff1 *= xstep;\n yoff1 *= ystep;\n zoff1 *= zstep;\n\n for (let xoff = xoff0; xoff <= xoff1; xoff += xstep) {\n for (let yoff = yoff0; yoff <= yoff1; yoff += ystep) {\n for (let zoff = zoff0; zoff <= zoff1; zoff += zstep) {\n const idx = xoff + yoff + zoff;\n bins[idx][binLengths[idx]++] = bi;\n }\n }\n }\n } // Put all bodies into the bins\n\n\n for (let i = 0; i !== N; i++) {\n const bi = bodies[i];\n const si = bi.shapes[0];\n\n switch (si.type) {\n case SPHERE:\n {\n const shape = si; // Put in bin\n // check if overlap with other bins\n\n const x = bi.position.x;\n const y = bi.position.y;\n const z = bi.position.z;\n const r = shape.radius;\n addBoxToBins(x - r, y - r, z - r, x + r, y + r, z + r, bi);\n break;\n }\n\n case PLANE:\n {\n const shape = si;\n\n if (shape.worldNormalNeedsUpdate) {\n shape.computeWorldNormal(bi.quaternion);\n }\n\n const planeNormal = shape.worldNormal; //Relative position from origin of plane object to the first bin\n //Incremented as we iterate through the bins\n\n const xreset = xmin + binsizeX * 0.5 - bi.position.x;\n const yreset = ymin + binsizeY * 0.5 - bi.position.y;\n const zreset = zmin + binsizeZ * 0.5 - bi.position.z;\n const d = GridBroadphase_collisionPairs_d;\n d.set(xreset, yreset, zreset);\n\n for (let xi = 0, xoff = 0; xi !== nx; xi++, xoff += xstep, d.y = yreset, d.x += binsizeX) {\n for (let yi = 0, yoff = 0; yi !== ny; yi++, yoff += ystep, d.z = zreset, d.y += binsizeY) {\n for (let zi = 0, zoff = 0; zi !== nz; zi++, zoff += zstep, d.z += binsizeZ) {\n if (d.dot(planeNormal) < binRadius) {\n const idx = xoff + yoff + zoff;\n bins[idx][binLengths[idx]++] = bi;\n }\n }\n }\n }\n\n break;\n }\n\n default:\n {\n if (bi.aabbNeedsUpdate) {\n bi.updateAABB();\n }\n\n addBoxToBins(bi.aabb.lowerBound.x, bi.aabb.lowerBound.y, bi.aabb.lowerBound.z, bi.aabb.upperBound.x, bi.aabb.upperBound.y, bi.aabb.upperBound.z, bi);\n break;\n }\n }\n } // Check each bin\n\n\n for (let i = 0; i !== Nbins; i++) {\n const binLength = binLengths[i]; //Skip bins with no potential collisions\n\n if (binLength > 1) {\n const bin = bins[i]; // Do N^2 broadphase inside\n\n for (let xi = 0; xi !== binLength; xi++) {\n const bi = bin[xi];\n\n for (let yi = 0; yi !== xi; yi++) {\n const bj = bin[yi];\n\n if (this.needBroadphaseCollision(bi, bj)) {\n this.intersectionTest(bi, bj, pairs1, pairs2);\n }\n }\n }\n }\n } //\tfor (let zi = 0, zoff=0; zi < nz; zi++, zoff+= zstep) {\n //\t\tconsole.log(\"layer \"+zi);\n //\t\tfor (let yi = 0, yoff=0; yi < ny; yi++, yoff += ystep) {\n //\t\t\tconst row = '';\n //\t\t\tfor (let xi = 0, xoff=0; xi < nx; xi++, xoff += xstep) {\n //\t\t\t\tconst idx = xoff + yoff + zoff;\n //\t\t\t\trow += ' ' + binLengths[idx];\n //\t\t\t}\n //\t\t\tconsole.log(row);\n //\t\t}\n //\t}\n\n\n this.makePairsUnique(pairs1, pairs2);\n }\n\n}\nconst GridBroadphase_collisionPairs_d = new Vec3();\n\n/**\n * Naive broadphase implementation, used in lack of better ones.\n *\n * The naive broadphase looks at all possible pairs without restriction, therefore it has complexity N^2 _(which is bad)_\n */\nclass NaiveBroadphase extends Broadphase {\n /**\n * @todo Remove useless constructor\n */\n constructor() {\n super();\n }\n /**\n * Get all the collision pairs in the physics world\n */\n\n\n collisionPairs(world, pairs1, pairs2) {\n const bodies = world.bodies;\n const n = bodies.length;\n let bi;\n let bj; // Naive N^2 ftw!\n\n for (let i = 0; i !== n; i++) {\n for (let j = 0; j !== i; j++) {\n bi = bodies[i];\n bj = bodies[j];\n\n if (!this.needBroadphaseCollision(bi, bj)) {\n continue;\n }\n\n this.intersectionTest(bi, bj, pairs1, pairs2);\n }\n }\n }\n /**\n * Returns all the bodies within an AABB.\n * @param result An array to store resulting bodies in.\n */\n\n\n aabbQuery(world, aabb, result = []) {\n for (let i = 0; i < world.bodies.length; i++) {\n const b = world.bodies[i];\n\n if (b.aabbNeedsUpdate) {\n b.updateAABB();\n } // Ugly hack until Body gets aabb\n\n\n if (b.aabb.overlaps(aabb)) {\n result.push(b);\n }\n }\n\n return result;\n }\n\n}\n\n/**\n * Storage for Ray casting data\n */\nclass RaycastResult {\n /**\n * rayFromWorld\n */\n\n /**\n * rayToWorld\n */\n\n /**\n * hitNormalWorld\n */\n\n /**\n * hitPointWorld\n */\n\n /**\n * hasHit\n */\n\n /**\n * shape\n */\n\n /**\n * body\n */\n\n /**\n * The index of the hit triangle, if the hit shape was a trimesh\n */\n\n /**\n * Distance to the hit. Will be set to -1 if there was no hit\n */\n\n /**\n * If the ray should stop traversing the bodies\n */\n constructor() {\n this.rayFromWorld = void 0;\n this.rayToWorld = void 0;\n this.hitNormalWorld = void 0;\n this.hitPointWorld = void 0;\n this.hasHit = void 0;\n this.shape = void 0;\n this.body = void 0;\n this.hitFaceIndex = void 0;\n this.distance = void 0;\n this.shouldStop = void 0;\n this.rayFromWorld = new Vec3();\n this.rayToWorld = new Vec3();\n this.hitNormalWorld = new Vec3();\n this.hitPointWorld = new Vec3();\n this.hasHit = false;\n this.shape = null;\n this.body = null;\n this.hitFaceIndex = -1;\n this.distance = -1;\n this.shouldStop = false;\n }\n /**\n * Reset all result data.\n */\n\n\n reset() {\n this.rayFromWorld.setZero();\n this.rayToWorld.setZero();\n this.hitNormalWorld.setZero();\n this.hitPointWorld.setZero();\n this.hasHit = false;\n this.shape = null;\n this.body = null;\n this.hitFaceIndex = -1;\n this.distance = -1;\n this.shouldStop = false;\n }\n /**\n * abort\n */\n\n\n abort() {\n this.shouldStop = true;\n }\n /**\n * Set result data.\n */\n\n\n set(rayFromWorld, rayToWorld, hitNormalWorld, hitPointWorld, shape, body, distance) {\n this.rayFromWorld.copy(rayFromWorld);\n this.rayToWorld.copy(rayToWorld);\n this.hitNormalWorld.copy(hitNormalWorld);\n this.hitPointWorld.copy(hitPointWorld);\n this.shape = shape;\n this.body = body;\n this.distance = distance;\n }\n\n}\n\nlet _Shape$types$SPHERE, _Shape$types$PLANE, _Shape$types$BOX, _Shape$types$CYLINDER, _Shape$types$CONVEXPO, _Shape$types$HEIGHTFI, _Shape$types$TRIMESH;\n\n/**\n * RAY_MODES\n */\nconst RAY_MODES = {\n /** CLOSEST */\n CLOSEST: 1,\n\n /** ANY */\n ANY: 2,\n\n /** ALL */\n ALL: 4\n};\n/**\n * RayMode\n */\n\n_Shape$types$SPHERE = Shape.types.SPHERE;\n_Shape$types$PLANE = Shape.types.PLANE;\n_Shape$types$BOX = Shape.types.BOX;\n_Shape$types$CYLINDER = Shape.types.CYLINDER;\n_Shape$types$CONVEXPO = Shape.types.CONVEXPOLYHEDRON;\n_Shape$types$HEIGHTFI = Shape.types.HEIGHTFIELD;\n_Shape$types$TRIMESH = Shape.types.TRIMESH;\n\n/**\n * A line in 3D space that intersects bodies and return points.\n */\nclass Ray {\n /**\n * from\n */\n\n /**\n * to\n */\n\n /**\n * direction\n */\n\n /**\n * The precision of the ray. Used when checking parallelity etc.\n * @default 0.0001\n */\n\n /**\n * Set to `false` if you don't want the Ray to take `collisionResponse` flags into account on bodies and shapes.\n * @default true\n */\n\n /**\n * If set to `true`, the ray skips any hits with normal.dot(rayDirection) < 0.\n * @default false\n */\n\n /**\n * collisionFilterMask\n * @default -1\n */\n\n /**\n * collisionFilterGroup\n * @default -1\n */\n\n /**\n * The intersection mode. Should be Ray.ANY, Ray.ALL or Ray.CLOSEST.\n * @default RAY.ANY\n */\n\n /**\n * Current result object.\n */\n\n /**\n * Will be set to `true` during intersectWorld() if the ray hit anything.\n */\n\n /**\n * User-provided result callback. Will be used if mode is Ray.ALL.\n */\n\n /**\n * CLOSEST\n */\n\n /**\n * ANY\n */\n\n /**\n * ALL\n */\n get [_Shape$types$SPHERE]() {\n return this._intersectSphere;\n }\n\n get [_Shape$types$PLANE]() {\n return this._intersectPlane;\n }\n\n get [_Shape$types$BOX]() {\n return this._intersectBox;\n }\n\n get [_Shape$types$CYLINDER]() {\n return this._intersectConvex;\n }\n\n get [_Shape$types$CONVEXPO]() {\n return this._intersectConvex;\n }\n\n get [_Shape$types$HEIGHTFI]() {\n return this._intersectHeightfield;\n }\n\n get [_Shape$types$TRIMESH]() {\n return this._intersectTrimesh;\n }\n\n constructor(from = new Vec3(), to = new Vec3()) {\n this.from = void 0;\n this.to = void 0;\n this.direction = void 0;\n this.precision = void 0;\n this.checkCollisionResponse = void 0;\n this.skipBackfaces = void 0;\n this.collisionFilterMask = void 0;\n this.collisionFilterGroup = void 0;\n this.mode = void 0;\n this.result = void 0;\n this.hasHit = void 0;\n this.callback = void 0;\n this.from = from.clone();\n this.to = to.clone();\n this.direction = new Vec3();\n this.precision = 0.0001;\n this.checkCollisionResponse = true;\n this.skipBackfaces = false;\n this.collisionFilterMask = -1;\n this.collisionFilterGroup = -1;\n this.mode = Ray.ANY;\n this.result = new RaycastResult();\n this.hasHit = false;\n\n this.callback = result => {};\n }\n /**\n * Do itersection against all bodies in the given World.\n * @return True if the ray hit anything, otherwise false.\n */\n\n\n intersectWorld(world, options) {\n this.mode = options.mode || Ray.ANY;\n this.result = options.result || new RaycastResult();\n this.skipBackfaces = !!options.skipBackfaces;\n this.collisionFilterMask = typeof options.collisionFilterMask !== 'undefined' ? options.collisionFilterMask : -1;\n this.collisionFilterGroup = typeof options.collisionFilterGroup !== 'undefined' ? options.collisionFilterGroup : -1;\n this.checkCollisionResponse = typeof options.checkCollisionResponse !== 'undefined' ? options.checkCollisionResponse : true;\n\n if (options.from) {\n this.from.copy(options.from);\n }\n\n if (options.to) {\n this.to.copy(options.to);\n }\n\n this.callback = options.callback || (() => {});\n\n this.hasHit = false;\n this.result.reset();\n this.updateDirection();\n this.getAABB(tmpAABB$1);\n tmpArray.length = 0;\n world.broadphase.aabbQuery(world, tmpAABB$1, tmpArray);\n this.intersectBodies(tmpArray);\n return this.hasHit;\n }\n /**\n * Shoot a ray at a body, get back information about the hit.\n * @deprecated @param result set the result property of the Ray instead.\n */\n\n\n intersectBody(body, result) {\n if (result) {\n this.result = result;\n this.updateDirection();\n }\n\n const checkCollisionResponse = this.checkCollisionResponse;\n\n if (checkCollisionResponse && !body.collisionResponse) {\n return;\n }\n\n if ((this.collisionFilterGroup & body.collisionFilterMask) === 0 || (body.collisionFilterGroup & this.collisionFilterMask) === 0) {\n return;\n }\n\n const xi = intersectBody_xi;\n const qi = intersectBody_qi;\n\n for (let i = 0, N = body.shapes.length; i < N; i++) {\n const shape = body.shapes[i];\n\n if (checkCollisionResponse && !shape.collisionResponse) {\n continue; // Skip\n }\n\n body.quaternion.mult(body.shapeOrientations[i], qi);\n body.quaternion.vmult(body.shapeOffsets[i], xi);\n xi.vadd(body.position, xi);\n this.intersectShape(shape, qi, xi, body);\n\n if (this.result.shouldStop) {\n break;\n }\n }\n }\n /**\n * Shoot a ray at an array bodies, get back information about the hit.\n * @param bodies An array of Body objects.\n * @deprecated @param result set the result property of the Ray instead.\n *\n */\n\n\n intersectBodies(bodies, result) {\n if (result) {\n this.result = result;\n this.updateDirection();\n }\n\n for (let i = 0, l = bodies.length; !this.result.shouldStop && i < l; i++) {\n this.intersectBody(bodies[i]);\n }\n }\n /**\n * Updates the direction vector.\n */\n\n\n updateDirection() {\n this.to.vsub(this.from, this.direction);\n this.direction.normalize();\n }\n\n intersectShape(shape, quat, position, body) {\n const from = this.from; // Checking boundingSphere\n\n const distance = distanceFromIntersection(from, this.direction, position);\n\n if (distance > shape.boundingSphereRadius) {\n return;\n }\n\n const intersectMethod = this[shape.type];\n\n if (intersectMethod) {\n intersectMethod.call(this, shape, quat, position, body, shape);\n }\n }\n\n _intersectBox(box, quat, position, body, reportedShape) {\n return this._intersectConvex(box.convexPolyhedronRepresentation, quat, position, body, reportedShape);\n }\n\n _intersectPlane(shape, quat, position, body, reportedShape) {\n const from = this.from;\n const to = this.to;\n const direction = this.direction; // Get plane normal\n\n const worldNormal = new Vec3(0, 0, 1);\n quat.vmult(worldNormal, worldNormal);\n const len = new Vec3();\n from.vsub(position, len);\n const planeToFrom = len.dot(worldNormal);\n to.vsub(position, len);\n const planeToTo = len.dot(worldNormal);\n\n if (planeToFrom * planeToTo > 0) {\n // \"from\" and \"to\" are on the same side of the plane... bail out\n return;\n }\n\n if (from.distanceTo(to) < planeToFrom) {\n return;\n }\n\n const n_dot_dir = worldNormal.dot(direction);\n\n if (Math.abs(n_dot_dir) < this.precision) {\n // No intersection\n return;\n }\n\n const planePointToFrom = new Vec3();\n const dir_scaled_with_t = new Vec3();\n const hitPointWorld = new Vec3();\n from.vsub(position, planePointToFrom);\n const t = -worldNormal.dot(planePointToFrom) / n_dot_dir;\n direction.scale(t, dir_scaled_with_t);\n from.vadd(dir_scaled_with_t, hitPointWorld);\n this.reportIntersection(worldNormal, hitPointWorld, reportedShape, body, -1);\n }\n /**\n * Get the world AABB of the ray.\n */\n\n\n getAABB(aabb) {\n const {\n lowerBound,\n upperBound\n } = aabb;\n const to = this.to;\n const from = this.from;\n lowerBound.x = Math.min(to.x, from.x);\n lowerBound.y = Math.min(to.y, from.y);\n lowerBound.z = Math.min(to.z, from.z);\n upperBound.x = Math.max(to.x, from.x);\n upperBound.y = Math.max(to.y, from.y);\n upperBound.z = Math.max(to.z, from.z);\n }\n\n _intersectHeightfield(shape, quat, position, body, reportedShape) {\n shape.data;\n shape.elementSize; // Convert the ray to local heightfield coordinates\n\n const localRay = intersectHeightfield_localRay; //new Ray(this.from, this.to);\n\n localRay.from.copy(this.from);\n localRay.to.copy(this.to);\n Transform.pointToLocalFrame(position, quat, localRay.from, localRay.from);\n Transform.pointToLocalFrame(position, quat, localRay.to, localRay.to);\n localRay.updateDirection(); // Get the index of the data points to test against\n\n const index = intersectHeightfield_index;\n let iMinX;\n let iMinY;\n let iMaxX;\n let iMaxY; // Set to max\n\n iMinX = iMinY = 0;\n iMaxX = iMaxY = shape.data.length - 1;\n const aabb = new AABB();\n localRay.getAABB(aabb);\n shape.getIndexOfPosition(aabb.lowerBound.x, aabb.lowerBound.y, index, true);\n iMinX = Math.max(iMinX, index[0]);\n iMinY = Math.max(iMinY, index[1]);\n shape.getIndexOfPosition(aabb.upperBound.x, aabb.upperBound.y, index, true);\n iMaxX = Math.min(iMaxX, index[0] + 1);\n iMaxY = Math.min(iMaxY, index[1] + 1);\n\n for (let i = iMinX; i < iMaxX; i++) {\n for (let j = iMinY; j < iMaxY; j++) {\n if (this.result.shouldStop) {\n return;\n }\n\n shape.getAabbAtIndex(i, j, aabb);\n\n if (!aabb.overlapsRay(localRay)) {\n continue;\n } // Lower triangle\n\n\n shape.getConvexTrianglePillar(i, j, false);\n Transform.pointToWorldFrame(position, quat, shape.pillarOffset, worldPillarOffset);\n\n this._intersectConvex(shape.pillarConvex, quat, worldPillarOffset, body, reportedShape, intersectConvexOptions);\n\n if (this.result.shouldStop) {\n return;\n } // Upper triangle\n\n\n shape.getConvexTrianglePillar(i, j, true);\n Transform.pointToWorldFrame(position, quat, shape.pillarOffset, worldPillarOffset);\n\n this._intersectConvex(shape.pillarConvex, quat, worldPillarOffset, body, reportedShape, intersectConvexOptions);\n }\n }\n }\n\n _intersectSphere(sphere, quat, position, body, reportedShape) {\n const from = this.from;\n const to = this.to;\n const r = sphere.radius;\n const a = (to.x - from.x) ** 2 + (to.y - from.y) ** 2 + (to.z - from.z) ** 2;\n const b = 2 * ((to.x - from.x) * (from.x - position.x) + (to.y - from.y) * (from.y - position.y) + (to.z - from.z) * (from.z - position.z));\n const c = (from.x - position.x) ** 2 + (from.y - position.y) ** 2 + (from.z - position.z) ** 2 - r ** 2;\n const delta = b ** 2 - 4 * a * c;\n const intersectionPoint = Ray_intersectSphere_intersectionPoint;\n const normal = Ray_intersectSphere_normal;\n\n if (delta < 0) {\n // No intersection\n return;\n } else if (delta === 0) {\n // single intersection point\n from.lerp(to, delta, intersectionPoint);\n intersectionPoint.vsub(position, normal);\n normal.normalize();\n this.reportIntersection(normal, intersectionPoint, reportedShape, body, -1);\n } else {\n const d1 = (-b - Math.sqrt(delta)) / (2 * a);\n const d2 = (-b + Math.sqrt(delta)) / (2 * a);\n\n if (d1 >= 0 && d1 <= 1) {\n from.lerp(to, d1, intersectionPoint);\n intersectionPoint.vsub(position, normal);\n normal.normalize();\n this.reportIntersection(normal, intersectionPoint, reportedShape, body, -1);\n }\n\n if (this.result.shouldStop) {\n return;\n }\n\n if (d2 >= 0 && d2 <= 1) {\n from.lerp(to, d2, intersectionPoint);\n intersectionPoint.vsub(position, normal);\n normal.normalize();\n this.reportIntersection(normal, intersectionPoint, reportedShape, body, -1);\n }\n }\n }\n\n _intersectConvex(shape, quat, position, body, reportedShape, options) {\n const normal = intersectConvex_normal;\n const vector = intersectConvex_vector;\n const faceList = options && options.faceList || null; // Checking faces\n\n const faces = shape.faces;\n const vertices = shape.vertices;\n const normals = shape.faceNormals;\n const direction = this.direction;\n const from = this.from;\n const to = this.to;\n const fromToDistance = from.distanceTo(to);\n const Nfaces = faceList ? faceList.length : faces.length;\n const result = this.result;\n\n for (let j = 0; !result.shouldStop && j < Nfaces; j++) {\n const fi = faceList ? faceList[j] : j;\n const face = faces[fi];\n const faceNormal = normals[fi];\n const q = quat;\n const x = position; // determine if ray intersects the plane of the face\n // note: this works regardless of the direction of the face normal\n // Get plane point in world coordinates...\n\n vector.copy(vertices[face[0]]);\n q.vmult(vector, vector);\n vector.vadd(x, vector); // ...but make it relative to the ray from. We'll fix this later.\n\n vector.vsub(from, vector); // Get plane normal\n\n q.vmult(faceNormal, normal); // If this dot product is negative, we have something interesting\n\n const dot = direction.dot(normal); // Bail out if ray and plane are parallel\n\n if (Math.abs(dot) < this.precision) {\n continue;\n } // calc distance to plane\n\n\n const scalar = normal.dot(vector) / dot; // if negative distance, then plane is behind ray\n\n if (scalar < 0) {\n continue;\n } // if (dot < 0) {\n // Intersection point is from + direction * scalar\n\n\n direction.scale(scalar, intersectPoint);\n intersectPoint.vadd(from, intersectPoint); // a is the point we compare points b and c with.\n\n a.copy(vertices[face[0]]);\n q.vmult(a, a);\n x.vadd(a, a);\n\n for (let i = 1; !result.shouldStop && i < face.length - 1; i++) {\n // Transform 3 vertices to world coords\n b.copy(vertices[face[i]]);\n c.copy(vertices[face[i + 1]]);\n q.vmult(b, b);\n q.vmult(c, c);\n x.vadd(b, b);\n x.vadd(c, c);\n const distance = intersectPoint.distanceTo(from);\n\n if (!(Ray.pointInTriangle(intersectPoint, a, b, c) || Ray.pointInTriangle(intersectPoint, b, a, c)) || distance > fromToDistance) {\n continue;\n }\n\n this.reportIntersection(normal, intersectPoint, reportedShape, body, fi);\n } // }\n\n }\n }\n /**\n * @todo Optimize by transforming the world to local space first.\n * @todo Use Octree lookup\n */\n\n\n _intersectTrimesh(mesh, quat, position, body, reportedShape, options) {\n const normal = intersectTrimesh_normal;\n const triangles = intersectTrimesh_triangles;\n const treeTransform = intersectTrimesh_treeTransform;\n const vector = intersectConvex_vector;\n const localDirection = intersectTrimesh_localDirection;\n const localFrom = intersectTrimesh_localFrom;\n const localTo = intersectTrimesh_localTo;\n const worldIntersectPoint = intersectTrimesh_worldIntersectPoint;\n const worldNormal = intersectTrimesh_worldNormal; // Checking faces\n\n const indices = mesh.indices;\n mesh.vertices; // const normals = mesh.faceNormals\n\n const from = this.from;\n const to = this.to;\n const direction = this.direction;\n treeTransform.position.copy(position);\n treeTransform.quaternion.copy(quat); // Transform ray to local space!\n\n Transform.vectorToLocalFrame(position, quat, direction, localDirection);\n Transform.pointToLocalFrame(position, quat, from, localFrom);\n Transform.pointToLocalFrame(position, quat, to, localTo);\n localTo.x *= mesh.scale.x;\n localTo.y *= mesh.scale.y;\n localTo.z *= mesh.scale.z;\n localFrom.x *= mesh.scale.x;\n localFrom.y *= mesh.scale.y;\n localFrom.z *= mesh.scale.z;\n localTo.vsub(localFrom, localDirection);\n localDirection.normalize();\n const fromToDistanceSquared = localFrom.distanceSquared(localTo);\n mesh.tree.rayQuery(this, treeTransform, triangles);\n\n for (let i = 0, N = triangles.length; !this.result.shouldStop && i !== N; i++) {\n const trianglesIndex = triangles[i];\n mesh.getNormal(trianglesIndex, normal); // determine if ray intersects the plane of the face\n // note: this works regardless of the direction of the face normal\n // Get plane point in world coordinates...\n\n mesh.getVertex(indices[trianglesIndex * 3], a); // ...but make it relative to the ray from. We'll fix this later.\n\n a.vsub(localFrom, vector); // If this dot product is negative, we have something interesting\n\n const dot = localDirection.dot(normal); // Bail out if ray and plane are parallel\n // if (Math.abs( dot ) < this.precision){\n // continue;\n // }\n // calc distance to plane\n\n const scalar = normal.dot(vector) / dot; // if negative distance, then plane is behind ray\n\n if (scalar < 0) {\n continue;\n } // Intersection point is from + direction * scalar\n\n\n localDirection.scale(scalar, intersectPoint);\n intersectPoint.vadd(localFrom, intersectPoint); // Get triangle vertices\n\n mesh.getVertex(indices[trianglesIndex * 3 + 1], b);\n mesh.getVertex(indices[trianglesIndex * 3 + 2], c);\n const squaredDistance = intersectPoint.distanceSquared(localFrom);\n\n if (!(Ray.pointInTriangle(intersectPoint, b, a, c) || Ray.pointInTriangle(intersectPoint, a, b, c)) || squaredDistance > fromToDistanceSquared) {\n continue;\n } // transform intersectpoint and normal to world\n\n\n Transform.vectorToWorldFrame(quat, normal, worldNormal);\n Transform.pointToWorldFrame(position, quat, intersectPoint, worldIntersectPoint);\n this.reportIntersection(worldNormal, worldIntersectPoint, reportedShape, body, trianglesIndex);\n }\n\n triangles.length = 0;\n }\n /**\n * @return True if the intersections should continue\n */\n\n\n reportIntersection(normal, hitPointWorld, shape, body, hitFaceIndex) {\n const from = this.from;\n const to = this.to;\n const distance = from.distanceTo(hitPointWorld);\n const result = this.result; // Skip back faces?\n\n if (this.skipBackfaces && normal.dot(this.direction) > 0) {\n return;\n }\n\n result.hitFaceIndex = typeof hitFaceIndex !== 'undefined' ? hitFaceIndex : -1;\n\n switch (this.mode) {\n case Ray.ALL:\n this.hasHit = true;\n result.set(from, to, normal, hitPointWorld, shape, body, distance);\n result.hasHit = true;\n this.callback(result);\n break;\n\n case Ray.CLOSEST:\n // Store if closer than current closest\n if (distance < result.distance || !result.hasHit) {\n this.hasHit = true;\n result.hasHit = true;\n result.set(from, to, normal, hitPointWorld, shape, body, distance);\n }\n\n break;\n\n case Ray.ANY:\n // Report and stop.\n this.hasHit = true;\n result.hasHit = true;\n result.set(from, to, normal, hitPointWorld, shape, body, distance);\n result.shouldStop = true;\n break;\n }\n }\n /**\n * As per \"Barycentric Technique\" as named\n * {@link https://www.blackpawn.com/texts/pointinpoly/default.html here} but without the division\n */\n\n\n static pointInTriangle(p, a, b, c) {\n c.vsub(a, v0);\n b.vsub(a, v1);\n p.vsub(a, v2);\n const dot00 = v0.dot(v0);\n const dot01 = v0.dot(v1);\n const dot02 = v0.dot(v2);\n const dot11 = v1.dot(v1);\n const dot12 = v1.dot(v2);\n let u;\n let v;\n return (u = dot11 * dot02 - dot01 * dot12) >= 0 && (v = dot00 * dot12 - dot01 * dot02) >= 0 && u + v < dot00 * dot11 - dot01 * dot01;\n }\n\n}\nRay.CLOSEST = RAY_MODES.CLOSEST;\nRay.ANY = RAY_MODES.ANY;\nRay.ALL = RAY_MODES.ALL;\nconst tmpAABB$1 = new AABB();\nconst tmpArray = [];\nconst v1 = new Vec3();\nconst v2 = new Vec3();\nconst intersectBody_xi = new Vec3();\nconst intersectBody_qi = new Quaternion();\nconst intersectPoint = new Vec3();\nconst a = new Vec3();\nconst b = new Vec3();\nconst c = new Vec3();\nconst intersectConvexOptions = {\n faceList: [0]\n};\nconst worldPillarOffset = new Vec3();\nconst intersectHeightfield_localRay = new Ray();\nconst intersectHeightfield_index = [];\nconst Ray_intersectSphere_intersectionPoint = new Vec3();\nconst Ray_intersectSphere_normal = new Vec3();\nconst intersectConvex_normal = new Vec3();\nconst intersectConvex_vector = new Vec3();\nconst intersectTrimesh_normal = new Vec3();\nconst intersectTrimesh_localDirection = new Vec3();\nconst intersectTrimesh_localFrom = new Vec3();\nconst intersectTrimesh_localTo = new Vec3();\nconst intersectTrimesh_worldNormal = new Vec3();\nconst intersectTrimesh_worldIntersectPoint = new Vec3();\nnew AABB();\nconst intersectTrimesh_triangles = [];\nconst intersectTrimesh_treeTransform = new Transform();\nconst v0 = new Vec3();\nconst intersect = new Vec3();\n\nfunction distanceFromIntersection(from, direction, position) {\n // v0 is vector from from to position\n position.vsub(from, v0);\n const dot = v0.dot(direction); // intersect = direction*dot + from\n\n direction.scale(dot, intersect);\n intersect.vadd(from, intersect);\n const distance = position.distanceTo(intersect);\n return distance;\n}\n\n/**\n * Sweep and prune broadphase along one axis.\n */\nclass SAPBroadphase extends Broadphase {\n /**\n * List of bodies currently in the broadphase.\n */\n\n /**\n * The world to search in.\n */\n\n /**\n * Axis to sort the bodies along.\n * Set to 0 for x axis, and 1 for y axis.\n * For best performance, pick the axis where bodies are most distributed.\n */\n\n /**\n * Check if the bounds of two bodies overlap, along the given SAP axis.\n */\n static checkBounds(bi, bj, axisIndex) {\n let biPos;\n let bjPos;\n\n if (axisIndex === 0) {\n biPos = bi.position.x;\n bjPos = bj.position.x;\n } else if (axisIndex === 1) {\n biPos = bi.position.y;\n bjPos = bj.position.y;\n } else if (axisIndex === 2) {\n biPos = bi.position.z;\n bjPos = bj.position.z;\n }\n\n const ri = bi.boundingRadius,\n rj = bj.boundingRadius,\n boundA2 = biPos + ri,\n boundB1 = bjPos - rj;\n return boundB1 < boundA2;\n } // Note: these are identical, save for x/y/z lowerbound\n\n /**\n * insertionSortX\n */\n\n\n static insertionSortX(a) {\n for (let i = 1, l = a.length; i < l; i++) {\n const v = a[i];\n let j;\n\n for (j = i - 1; j >= 0; j--) {\n if (a[j].aabb.lowerBound.x <= v.aabb.lowerBound.x) {\n break;\n }\n\n a[j + 1] = a[j];\n }\n\n a[j + 1] = v;\n }\n\n return a;\n }\n /**\n * insertionSortY\n */\n\n\n static insertionSortY(a) {\n for (let i = 1, l = a.length; i < l; i++) {\n const v = a[i];\n let j;\n\n for (j = i - 1; j >= 0; j--) {\n if (a[j].aabb.lowerBound.y <= v.aabb.lowerBound.y) {\n break;\n }\n\n a[j + 1] = a[j];\n }\n\n a[j + 1] = v;\n }\n\n return a;\n }\n /**\n * insertionSortZ\n */\n\n\n static insertionSortZ(a) {\n for (let i = 1, l = a.length; i < l; i++) {\n const v = a[i];\n let j;\n\n for (j = i - 1; j >= 0; j--) {\n if (a[j].aabb.lowerBound.z <= v.aabb.lowerBound.z) {\n break;\n }\n\n a[j + 1] = a[j];\n }\n\n a[j + 1] = v;\n }\n\n return a;\n }\n\n constructor(world) {\n super();\n this.axisList = void 0;\n this.world = void 0;\n this.axisIndex = void 0;\n this._addBodyHandler = void 0;\n this._removeBodyHandler = void 0;\n this.axisList = [];\n this.world = null;\n this.axisIndex = 0;\n const axisList = this.axisList;\n\n this._addBodyHandler = event => {\n axisList.push(event.body);\n };\n\n this._removeBodyHandler = event => {\n const idx = axisList.indexOf(event.body);\n\n if (idx !== -1) {\n axisList.splice(idx, 1);\n }\n };\n\n if (world) {\n this.setWorld(world);\n }\n }\n /**\n * Change the world\n */\n\n\n setWorld(world) {\n // Clear the old axis array\n this.axisList.length = 0; // Add all bodies from the new world\n\n for (let i = 0; i < world.bodies.length; i++) {\n this.axisList.push(world.bodies[i]);\n } // Remove old handlers, if any\n\n\n world.removeEventListener('addBody', this._addBodyHandler);\n world.removeEventListener('removeBody', this._removeBodyHandler); // Add handlers to update the list of bodies.\n\n world.addEventListener('addBody', this._addBodyHandler);\n world.addEventListener('removeBody', this._removeBodyHandler);\n this.world = world;\n this.dirty = true;\n }\n /**\n * Collect all collision pairs\n */\n\n\n collisionPairs(world, p1, p2) {\n const bodies = this.axisList;\n const N = bodies.length;\n const axisIndex = this.axisIndex;\n let i;\n let j;\n\n if (this.dirty) {\n this.sortList();\n this.dirty = false;\n } // Look through the list\n\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n\n for (j = i + 1; j < N; j++) {\n const bj = bodies[j];\n\n if (!this.needBroadphaseCollision(bi, bj)) {\n continue;\n }\n\n if (!SAPBroadphase.checkBounds(bi, bj, axisIndex)) {\n break;\n }\n\n this.intersectionTest(bi, bj, p1, p2);\n }\n }\n }\n\n sortList() {\n const axisList = this.axisList;\n const axisIndex = this.axisIndex;\n const N = axisList.length; // Update AABBs\n\n for (let i = 0; i !== N; i++) {\n const bi = axisList[i];\n\n if (bi.aabbNeedsUpdate) {\n bi.updateAABB();\n }\n } // Sort the list\n\n\n if (axisIndex === 0) {\n SAPBroadphase.insertionSortX(axisList);\n } else if (axisIndex === 1) {\n SAPBroadphase.insertionSortY(axisList);\n } else if (axisIndex === 2) {\n SAPBroadphase.insertionSortZ(axisList);\n }\n }\n /**\n * Computes the variance of the body positions and estimates the best axis to use.\n * Will automatically set property `axisIndex`.\n */\n\n\n autoDetectAxis() {\n let sumX = 0;\n let sumX2 = 0;\n let sumY = 0;\n let sumY2 = 0;\n let sumZ = 0;\n let sumZ2 = 0;\n const bodies = this.axisList;\n const N = bodies.length;\n const invN = 1 / N;\n\n for (let i = 0; i !== N; i++) {\n const b = bodies[i];\n const centerX = b.position.x;\n sumX += centerX;\n sumX2 += centerX * centerX;\n const centerY = b.position.y;\n sumY += centerY;\n sumY2 += centerY * centerY;\n const centerZ = b.position.z;\n sumZ += centerZ;\n sumZ2 += centerZ * centerZ;\n }\n\n const varianceX = sumX2 - sumX * sumX * invN;\n const varianceY = sumY2 - sumY * sumY * invN;\n const varianceZ = sumZ2 - sumZ * sumZ * invN;\n\n if (varianceX > varianceY) {\n if (varianceX > varianceZ) {\n this.axisIndex = 0;\n } else {\n this.axisIndex = 2;\n }\n } else if (varianceY > varianceZ) {\n this.axisIndex = 1;\n } else {\n this.axisIndex = 2;\n }\n }\n /**\n * Returns all the bodies within an AABB.\n * @param result An array to store resulting bodies in.\n */\n\n\n aabbQuery(world, aabb, result = []) {\n if (this.dirty) {\n this.sortList();\n this.dirty = false;\n }\n\n const axisIndex = this.axisIndex;\n let axis = 'x';\n\n if (axisIndex === 1) {\n axis = 'y';\n }\n\n if (axisIndex === 2) {\n axis = 'z';\n }\n\n const axisList = this.axisList;\n aabb.lowerBound[axis];\n aabb.upperBound[axis];\n\n for (let i = 0; i < axisList.length; i++) {\n const b = axisList[i];\n\n if (b.aabbNeedsUpdate) {\n b.updateAABB();\n }\n\n if (b.aabb.overlaps(aabb)) {\n result.push(b);\n }\n }\n\n return result;\n }\n\n}\n\nclass Utils {\n /**\n * Extend an options object with default values.\n * @param options The options object. May be falsy: in this case, a new object is created and returned.\n * @param defaults An object containing default values.\n * @return The modified options object.\n */\n static defaults(options = {}, defaults) {\n for (let key in defaults) {\n if (!(key in options)) {\n options[key] = defaults[key];\n }\n }\n\n return options;\n }\n\n}\n\n/**\n * Constraint base class\n */\nclass Constraint {\n /**\n * Equations to be solved in this constraint.\n */\n\n /**\n * Body A.\n */\n\n /**\n * Body B.\n */\n\n /**\n * Set to false if you don't want the bodies to collide when they are connected.\n */\n constructor(bodyA, bodyB, options = {}) {\n this.equations = void 0;\n this.bodyA = void 0;\n this.bodyB = void 0;\n this.id = void 0;\n this.collideConnected = void 0;\n options = Utils.defaults(options, {\n collideConnected: true,\n wakeUpBodies: true\n });\n this.equations = [];\n this.bodyA = bodyA;\n this.bodyB = bodyB;\n this.id = Constraint.idCounter++;\n this.collideConnected = options.collideConnected;\n\n if (options.wakeUpBodies) {\n if (bodyA) {\n bodyA.wakeUp();\n }\n\n if (bodyB) {\n bodyB.wakeUp();\n }\n }\n }\n /**\n * Update all the equations with data.\n */\n\n\n update() {\n throw new Error('method update() not implmemented in this Constraint subclass!');\n }\n /**\n * Enables all equations in the constraint.\n */\n\n\n enable() {\n const eqs = this.equations;\n\n for (let i = 0; i < eqs.length; i++) {\n eqs[i].enabled = true;\n }\n }\n /**\n * Disables all equations in the constraint.\n */\n\n\n disable() {\n const eqs = this.equations;\n\n for (let i = 0; i < eqs.length; i++) {\n eqs[i].enabled = false;\n }\n }\n\n}\nConstraint.idCounter = 0;\n\n/**\n * An element containing 6 entries, 3 spatial and 3 rotational degrees of freedom.\n */\n\nclass JacobianElement {\n /**\n * spatial\n */\n\n /**\n * rotational\n */\n constructor() {\n this.spatial = void 0;\n this.rotational = void 0;\n this.spatial = new Vec3();\n this.rotational = new Vec3();\n }\n /**\n * Multiply with other JacobianElement\n */\n\n\n multiplyElement(element) {\n return element.spatial.dot(this.spatial) + element.rotational.dot(this.rotational);\n }\n /**\n * Multiply with two vectors\n */\n\n\n multiplyVectors(spatial, rotational) {\n return spatial.dot(this.spatial) + rotational.dot(this.rotational);\n }\n\n}\n\n/**\n * Equation base class.\n *\n * `a`, `b` and `eps` are {@link https://www8.cs.umu.se/kurser/5DV058/VT15/lectures/SPOOKlabnotes.pdf SPOOK} parameters that default to `0.0`. See {@link https://github.com/schteppe/cannon.js/issues/238#issuecomment-147172327 this exchange} for more details on Cannon's physics implementation.\n */\nclass Equation {\n /**\n * Minimum (read: negative max) force to be applied by the constraint.\n */\n\n /**\n * Maximum (read: positive max) force to be applied by the constraint.\n */\n\n /**\n * SPOOK parameter\n */\n\n /**\n * SPOOK parameter\n */\n\n /**\n * SPOOK parameter\n */\n\n /**\n * A number, proportional to the force added to the bodies.\n */\n constructor(bi, bj, minForce = -1e6, maxForce = 1e6) {\n this.id = void 0;\n this.minForce = void 0;\n this.maxForce = void 0;\n this.bi = void 0;\n this.bj = void 0;\n this.si = void 0;\n this.sj = void 0;\n this.a = void 0;\n this.b = void 0;\n this.eps = void 0;\n this.jacobianElementA = void 0;\n this.jacobianElementB = void 0;\n this.enabled = void 0;\n this.multiplier = void 0;\n this.id = Equation.idCounter++;\n this.minForce = minForce;\n this.maxForce = maxForce;\n this.bi = bi;\n this.bj = bj;\n this.a = 0.0; // SPOOK parameter\n\n this.b = 0.0; // SPOOK parameter\n\n this.eps = 0.0; // SPOOK parameter\n\n this.jacobianElementA = new JacobianElement();\n this.jacobianElementB = new JacobianElement();\n this.enabled = true;\n this.multiplier = 0;\n this.setSpookParams(1e7, 4, 1 / 60); // Set typical spook params\n }\n /**\n * Recalculates a, b, and eps.\n *\n * The Equation constructor sets typical SPOOK parameters as such:\n * * `stiffness` = 1e7\n * * `relaxation` = 4\n * * `timeStep`= 1 / 60, _note the hardcoded refresh rate._\n */\n\n\n setSpookParams(stiffness, relaxation, timeStep) {\n const d = relaxation;\n const k = stiffness;\n const h = timeStep;\n this.a = 4.0 / (h * (1 + 4 * d));\n this.b = 4.0 * d / (1 + 4 * d);\n this.eps = 4.0 / (h * h * k * (1 + 4 * d));\n }\n /**\n * Computes the right hand side of the SPOOK equation\n */\n\n\n computeB(a, b, h) {\n const GW = this.computeGW();\n const Gq = this.computeGq();\n const GiMf = this.computeGiMf();\n return -Gq * a - GW * b - GiMf * h;\n }\n /**\n * Computes G*q, where q are the generalized body coordinates\n */\n\n\n computeGq() {\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const bi = this.bi;\n const bj = this.bj;\n const xi = bi.position;\n const xj = bj.position;\n return GA.spatial.dot(xi) + GB.spatial.dot(xj);\n }\n /**\n * Computes G*W, where W are the body velocities\n */\n\n\n computeGW() {\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const bi = this.bi;\n const bj = this.bj;\n const vi = bi.velocity;\n const vj = bj.velocity;\n const wi = bi.angularVelocity;\n const wj = bj.angularVelocity;\n return GA.multiplyVectors(vi, wi) + GB.multiplyVectors(vj, wj);\n }\n /**\n * Computes G*Wlambda, where W are the body velocities\n */\n\n\n computeGWlambda() {\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const bi = this.bi;\n const bj = this.bj;\n const vi = bi.vlambda;\n const vj = bj.vlambda;\n const wi = bi.wlambda;\n const wj = bj.wlambda;\n return GA.multiplyVectors(vi, wi) + GB.multiplyVectors(vj, wj);\n }\n /**\n * Computes G*inv(M)*f, where M is the mass matrix with diagonal blocks for each body, and f are the forces on the bodies.\n */\n\n\n computeGiMf() {\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const bi = this.bi;\n const bj = this.bj;\n const fi = bi.force;\n const ti = bi.torque;\n const fj = bj.force;\n const tj = bj.torque;\n const invMassi = bi.invMassSolve;\n const invMassj = bj.invMassSolve;\n fi.scale(invMassi, iMfi);\n fj.scale(invMassj, iMfj);\n bi.invInertiaWorldSolve.vmult(ti, invIi_vmult_taui);\n bj.invInertiaWorldSolve.vmult(tj, invIj_vmult_tauj);\n return GA.multiplyVectors(iMfi, invIi_vmult_taui) + GB.multiplyVectors(iMfj, invIj_vmult_tauj);\n }\n /**\n * Computes G*inv(M)*G'\n */\n\n\n computeGiMGt() {\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const bi = this.bi;\n const bj = this.bj;\n const invMassi = bi.invMassSolve;\n const invMassj = bj.invMassSolve;\n const invIi = bi.invInertiaWorldSolve;\n const invIj = bj.invInertiaWorldSolve;\n let result = invMassi + invMassj;\n invIi.vmult(GA.rotational, tmp);\n result += tmp.dot(GA.rotational);\n invIj.vmult(GB.rotational, tmp);\n result += tmp.dot(GB.rotational);\n return result;\n }\n /**\n * Add constraint velocity to the bodies.\n */\n\n\n addToWlambda(deltalambda) {\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const bi = this.bi;\n const bj = this.bj;\n const temp = addToWlambda_temp; // Add to linear velocity\n // v_lambda += inv(M) * delta_lamba * G\n\n bi.vlambda.addScaledVector(bi.invMassSolve * deltalambda, GA.spatial, bi.vlambda);\n bj.vlambda.addScaledVector(bj.invMassSolve * deltalambda, GB.spatial, bj.vlambda); // Add to angular velocity\n\n bi.invInertiaWorldSolve.vmult(GA.rotational, temp);\n bi.wlambda.addScaledVector(deltalambda, temp, bi.wlambda);\n bj.invInertiaWorldSolve.vmult(GB.rotational, temp);\n bj.wlambda.addScaledVector(deltalambda, temp, bj.wlambda);\n }\n /**\n * Compute the denominator part of the SPOOK equation: C = G*inv(M)*G' + eps\n */\n\n\n computeC() {\n return this.computeGiMGt() + this.eps;\n }\n\n}\nEquation.idCounter = 0;\nconst iMfi = new Vec3();\nconst iMfj = new Vec3();\nconst invIi_vmult_taui = new Vec3();\nconst invIj_vmult_tauj = new Vec3();\nconst tmp = new Vec3();\nconst addToWlambda_temp = new Vec3();\n\n/**\n * Contact/non-penetration constraint equation\n */\nclass ContactEquation extends Equation {\n /**\n * \"bounciness\": u1 = -e*u0\n */\n\n /**\n * World-oriented vector that goes from the center of bi to the contact point.\n */\n\n /**\n * World-oriented vector that starts in body j position and goes to the contact point.\n */\n\n /**\n * Contact normal, pointing out of body i.\n */\n constructor(bodyA, bodyB, maxForce = 1e6) {\n super(bodyA, bodyB, 0, maxForce);\n this.restitution = void 0;\n this.ri = void 0;\n this.rj = void 0;\n this.ni = void 0;\n this.restitution = 0.0;\n this.ri = new Vec3();\n this.rj = new Vec3();\n this.ni = new Vec3();\n }\n\n computeB(h) {\n const a = this.a;\n const b = this.b;\n const bi = this.bi;\n const bj = this.bj;\n const ri = this.ri;\n const rj = this.rj;\n const rixn = ContactEquation_computeB_temp1;\n const rjxn = ContactEquation_computeB_temp2;\n const vi = bi.velocity;\n const wi = bi.angularVelocity;\n bi.force;\n bi.torque;\n const vj = bj.velocity;\n const wj = bj.angularVelocity;\n bj.force;\n bj.torque;\n const penetrationVec = ContactEquation_computeB_temp3;\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n const n = this.ni; // Caluclate cross products\n\n ri.cross(n, rixn);\n rj.cross(n, rjxn); // g = xj+rj -(xi+ri)\n // G = [ -ni -rixn ni rjxn ]\n\n n.negate(GA.spatial);\n rixn.negate(GA.rotational);\n GB.spatial.copy(n);\n GB.rotational.copy(rjxn); // Calculate the penetration vector\n\n penetrationVec.copy(bj.position);\n penetrationVec.vadd(rj, penetrationVec);\n penetrationVec.vsub(bi.position, penetrationVec);\n penetrationVec.vsub(ri, penetrationVec);\n const g = n.dot(penetrationVec); // Compute iteration\n\n const ePlusOne = this.restitution + 1;\n const GW = ePlusOne * vj.dot(n) - ePlusOne * vi.dot(n) + wj.dot(rjxn) - wi.dot(rixn);\n const GiMf = this.computeGiMf();\n const B = -g * a - GW * b - h * GiMf;\n return B;\n }\n /**\n * Get the current relative velocity in the contact point.\n */\n\n\n getImpactVelocityAlongNormal() {\n const vi = ContactEquation_getImpactVelocityAlongNormal_vi;\n const vj = ContactEquation_getImpactVelocityAlongNormal_vj;\n const xi = ContactEquation_getImpactVelocityAlongNormal_xi;\n const xj = ContactEquation_getImpactVelocityAlongNormal_xj;\n const relVel = ContactEquation_getImpactVelocityAlongNormal_relVel;\n this.bi.position.vadd(this.ri, xi);\n this.bj.position.vadd(this.rj, xj);\n this.bi.getVelocityAtWorldPoint(xi, vi);\n this.bj.getVelocityAtWorldPoint(xj, vj);\n vi.vsub(vj, relVel);\n return this.ni.dot(relVel);\n }\n\n}\nconst ContactEquation_computeB_temp1 = new Vec3(); // Temp vectors\n\nconst ContactEquation_computeB_temp2 = new Vec3();\nconst ContactEquation_computeB_temp3 = new Vec3();\nconst ContactEquation_getImpactVelocityAlongNormal_vi = new Vec3();\nconst ContactEquation_getImpactVelocityAlongNormal_vj = new Vec3();\nconst ContactEquation_getImpactVelocityAlongNormal_xi = new Vec3();\nconst ContactEquation_getImpactVelocityAlongNormal_xj = new Vec3();\nconst ContactEquation_getImpactVelocityAlongNormal_relVel = new Vec3();\n\n/**\n * Connects two bodies at given offset points.\n * @example\n * const bodyA = new Body({ mass: 1 })\n * const bodyB = new Body({ mass: 1 })\n * bodyA.position.set(-1, 0, 0)\n * bodyB.position.set(1, 0, 0)\n * bodyA.addShape(shapeA)\n * bodyB.addShape(shapeB)\n * world.addBody(bodyA)\n * world.addBody(bodyB)\n * const localPivotA = new Vec3(1, 0, 0)\n * const localPivotB = new Vec3(-1, 0, 0)\n * const constraint = new PointToPointConstraint(bodyA, localPivotA, bodyB, localPivotB)\n * world.addConstraint(constraint)\n */\nclass PointToPointConstraint extends Constraint {\n /**\n * Pivot, defined locally in bodyA.\n */\n\n /**\n * Pivot, defined locally in bodyB.\n */\n\n /**\n * @param pivotA The point relative to the center of mass of bodyA which bodyA is constrained to.\n * @param bodyB Body that will be constrained in a similar way to the same point as bodyA. We will therefore get a link between bodyA and bodyB. If not specified, bodyA will be constrained to a static point.\n * @param pivotB The point relative to the center of mass of bodyB which bodyB is constrained to.\n * @param maxForce The maximum force that should be applied to constrain the bodies.\n */\n constructor(bodyA, pivotA = new Vec3(), bodyB, pivotB = new Vec3(), maxForce = 1e6) {\n super(bodyA, bodyB);\n this.pivotA = void 0;\n this.pivotB = void 0;\n this.equationX = void 0;\n this.equationY = void 0;\n this.equationZ = void 0;\n this.pivotA = pivotA.clone();\n this.pivotB = pivotB.clone();\n const x = this.equationX = new ContactEquation(bodyA, bodyB);\n const y = this.equationY = new ContactEquation(bodyA, bodyB);\n const z = this.equationZ = new ContactEquation(bodyA, bodyB); // Equations to be fed to the solver\n\n this.equations.push(x, y, z); // Make the equations bidirectional\n\n x.minForce = y.minForce = z.minForce = -maxForce;\n x.maxForce = y.maxForce = z.maxForce = maxForce;\n x.ni.set(1, 0, 0);\n y.ni.set(0, 1, 0);\n z.ni.set(0, 0, 1);\n }\n\n update() {\n const bodyA = this.bodyA;\n const bodyB = this.bodyB;\n const x = this.equationX;\n const y = this.equationY;\n const z = this.equationZ; // Rotate the pivots to world space\n\n bodyA.quaternion.vmult(this.pivotA, x.ri);\n bodyB.quaternion.vmult(this.pivotB, x.rj);\n y.ri.copy(x.ri);\n y.rj.copy(x.rj);\n z.ri.copy(x.ri);\n z.rj.copy(x.rj);\n }\n\n}\n\n/**\n * Cone equation. Works to keep the given body world vectors aligned, or tilted within a given angle from each other.\n */\nclass ConeEquation extends Equation {\n /**\n * Local axis in A\n */\n\n /**\n * Local axis in B\n */\n\n /**\n * The \"cone angle\" to keep\n */\n constructor(bodyA, bodyB, options = {}) {\n const maxForce = typeof options.maxForce !== 'undefined' ? options.maxForce : 1e6;\n super(bodyA, bodyB, -maxForce, maxForce);\n this.axisA = void 0;\n this.axisB = void 0;\n this.angle = void 0;\n this.axisA = options.axisA ? options.axisA.clone() : new Vec3(1, 0, 0);\n this.axisB = options.axisB ? options.axisB.clone() : new Vec3(0, 1, 0);\n this.angle = typeof options.angle !== 'undefined' ? options.angle : 0;\n }\n\n computeB(h) {\n const a = this.a;\n const b = this.b;\n const ni = this.axisA;\n const nj = this.axisB;\n const nixnj = tmpVec1$2;\n const njxni = tmpVec2$2;\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB; // Caluclate cross products\n\n ni.cross(nj, nixnj);\n nj.cross(ni, njxni); // The angle between two vector is:\n // cos(theta) = a * b / (length(a) * length(b) = { len(a) = len(b) = 1 } = a * b\n // g = a * b\n // gdot = (b x a) * wi + (a x b) * wj\n // G = [0 bxa 0 axb]\n // W = [vi wi vj wj]\n\n GA.rotational.copy(njxni);\n GB.rotational.copy(nixnj);\n const g = Math.cos(this.angle) - ni.dot(nj);\n const GW = this.computeGW();\n const GiMf = this.computeGiMf();\n const B = -g * a - GW * b - h * GiMf;\n return B;\n }\n\n}\nconst tmpVec1$2 = new Vec3();\nconst tmpVec2$2 = new Vec3();\n\n/**\n * Rotational constraint. Works to keep the local vectors orthogonal to each other in world space.\n */\nclass RotationalEquation extends Equation {\n /**\n * World oriented rotational axis.\n */\n\n /**\n * World oriented rotational axis.\n */\n\n /**\n * maxAngle\n */\n constructor(bodyA, bodyB, options = {}) {\n const maxForce = typeof options.maxForce !== 'undefined' ? options.maxForce : 1e6;\n super(bodyA, bodyB, -maxForce, maxForce);\n this.axisA = void 0;\n this.axisB = void 0;\n this.maxAngle = void 0;\n this.axisA = options.axisA ? options.axisA.clone() : new Vec3(1, 0, 0);\n this.axisB = options.axisB ? options.axisB.clone() : new Vec3(0, 1, 0);\n this.maxAngle = Math.PI / 2;\n }\n\n computeB(h) {\n const a = this.a;\n const b = this.b;\n const ni = this.axisA;\n const nj = this.axisB;\n const nixnj = tmpVec1$1;\n const njxni = tmpVec2$1;\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB; // Caluclate cross products\n\n ni.cross(nj, nixnj);\n nj.cross(ni, njxni); // g = ni * nj\n // gdot = (nj x ni) * wi + (ni x nj) * wj\n // G = [0 njxni 0 nixnj]\n // W = [vi wi vj wj]\n\n GA.rotational.copy(njxni);\n GB.rotational.copy(nixnj);\n const g = Math.cos(this.maxAngle) - ni.dot(nj);\n const GW = this.computeGW();\n const GiMf = this.computeGiMf();\n const B = -g * a - GW * b - h * GiMf;\n return B;\n }\n\n}\nconst tmpVec1$1 = new Vec3();\nconst tmpVec2$1 = new Vec3();\n\n/**\n * A Cone Twist constraint, useful for ragdolls.\n */\nclass ConeTwistConstraint extends PointToPointConstraint {\n /**\n * The axis direction for the constraint of the body A.\n */\n\n /**\n * The axis direction for the constraint of the body B.\n */\n\n /**\n * The aperture angle of the cone.\n */\n\n /**\n * The twist angle of the joint.\n */\n constructor(bodyA, bodyB, options = {}) {\n const maxForce = typeof options.maxForce !== 'undefined' ? options.maxForce : 1e6; // Set pivot point in between\n\n const pivotA = options.pivotA ? options.pivotA.clone() : new Vec3();\n const pivotB = options.pivotB ? options.pivotB.clone() : new Vec3();\n super(bodyA, pivotA, bodyB, pivotB, maxForce);\n this.axisA = void 0;\n this.axisB = void 0;\n this.angle = void 0;\n this.twistAngle = void 0;\n this.coneEquation = void 0;\n this.twistEquation = void 0;\n this.axisA = options.axisA ? options.axisA.clone() : new Vec3();\n this.axisB = options.axisB ? options.axisB.clone() : new Vec3();\n this.collideConnected = !!options.collideConnected;\n this.angle = typeof options.angle !== 'undefined' ? options.angle : 0;\n const c = this.coneEquation = new ConeEquation(bodyA, bodyB, options);\n const t = this.twistEquation = new RotationalEquation(bodyA, bodyB, options);\n this.twistAngle = typeof options.twistAngle !== 'undefined' ? options.twistAngle : 0; // Make the cone equation push the bodies toward the cone axis, not outward\n\n c.maxForce = 0;\n c.minForce = -maxForce; // Make the twist equation add torque toward the initial position\n\n t.maxForce = 0;\n t.minForce = -maxForce;\n this.equations.push(c, t);\n }\n\n update() {\n const bodyA = this.bodyA;\n const bodyB = this.bodyB;\n const cone = this.coneEquation;\n const twist = this.twistEquation;\n super.update(); // Update the axes to the cone constraint\n\n bodyA.vectorToWorldFrame(this.axisA, cone.axisA);\n bodyB.vectorToWorldFrame(this.axisB, cone.axisB); // Update the world axes in the twist constraint\n\n this.axisA.tangents(twist.axisA, twist.axisA);\n bodyA.vectorToWorldFrame(twist.axisA, twist.axisA);\n this.axisB.tangents(twist.axisB, twist.axisB);\n bodyB.vectorToWorldFrame(twist.axisB, twist.axisB);\n cone.angle = this.angle;\n twist.maxAngle = this.twistAngle;\n }\n\n}\n\n/**\n * Constrains two bodies to be at a constant distance from each others center of mass.\n */\nclass DistanceConstraint extends Constraint {\n /**\n * The distance to keep. If undefined, it will be set to the current distance between bodyA and bodyB\n */\n\n /**\n * @param distance The distance to keep. If undefined, it will be set to the current distance between bodyA and bodyB.\n * @param maxForce The maximum force that should be applied to constrain the bodies.\n */\n constructor(bodyA, bodyB, distance, maxForce = 1e6) {\n super(bodyA, bodyB);\n this.distance = void 0;\n this.distanceEquation = void 0;\n\n if (typeof distance === 'undefined') {\n distance = bodyA.position.distanceTo(bodyB.position);\n }\n\n this.distance = distance;\n const eq = this.distanceEquation = new ContactEquation(bodyA, bodyB);\n this.equations.push(eq); // Make it bidirectional\n\n eq.minForce = -maxForce;\n eq.maxForce = maxForce;\n }\n /**\n * update\n */\n\n\n update() {\n const bodyA = this.bodyA;\n const bodyB = this.bodyB;\n const eq = this.distanceEquation;\n const halfDist = this.distance * 0.5;\n const normal = eq.ni;\n bodyB.position.vsub(bodyA.position, normal);\n normal.normalize();\n normal.scale(halfDist, eq.ri);\n normal.scale(-halfDist, eq.rj);\n }\n\n}\n\n/**\n * Lock constraint. Will remove all degrees of freedom between the bodies.\n */\nclass LockConstraint extends PointToPointConstraint {\n constructor(bodyA, bodyB, options = {}) {\n const maxForce = typeof options.maxForce !== 'undefined' ? options.maxForce : 1e6; // Set pivot point in between\n\n const pivotA = new Vec3();\n const pivotB = new Vec3();\n const halfWay = new Vec3();\n bodyA.position.vadd(bodyB.position, halfWay);\n halfWay.scale(0.5, halfWay);\n bodyB.pointToLocalFrame(halfWay, pivotB);\n bodyA.pointToLocalFrame(halfWay, pivotA); // The point-to-point constraint will keep a point shared between the bodies\n\n super(bodyA, pivotA, bodyB, pivotB, maxForce); // Store initial rotation of the bodies as unit vectors in the local body spaces\n\n this.xA = void 0;\n this.xB = void 0;\n this.yA = void 0;\n this.yB = void 0;\n this.zA = void 0;\n this.zB = void 0;\n this.rotationalEquation1 = void 0;\n this.rotationalEquation2 = void 0;\n this.rotationalEquation3 = void 0;\n this.motorEquation = void 0;\n this.xA = bodyA.vectorToLocalFrame(Vec3.UNIT_X);\n this.xB = bodyB.vectorToLocalFrame(Vec3.UNIT_X);\n this.yA = bodyA.vectorToLocalFrame(Vec3.UNIT_Y);\n this.yB = bodyB.vectorToLocalFrame(Vec3.UNIT_Y);\n this.zA = bodyA.vectorToLocalFrame(Vec3.UNIT_Z);\n this.zB = bodyB.vectorToLocalFrame(Vec3.UNIT_Z); // ...and the following rotational equations will keep all rotational DOF's in place\n\n const r1 = this.rotationalEquation1 = new RotationalEquation(bodyA, bodyB, options);\n const r2 = this.rotationalEquation2 = new RotationalEquation(bodyA, bodyB, options);\n const r3 = this.rotationalEquation3 = new RotationalEquation(bodyA, bodyB, options);\n this.equations.push(r1, r2, r3);\n }\n /**\n * update\n */\n\n\n update() {\n const bodyA = this.bodyA;\n const bodyB = this.bodyB;\n this.motorEquation;\n const r1 = this.rotationalEquation1;\n const r2 = this.rotationalEquation2;\n const r3 = this.rotationalEquation3;\n super.update(); // These vector pairs must be orthogonal\n\n bodyA.vectorToWorldFrame(this.xA, r1.axisA);\n bodyB.vectorToWorldFrame(this.yB, r1.axisB);\n bodyA.vectorToWorldFrame(this.yA, r2.axisA);\n bodyB.vectorToWorldFrame(this.zB, r2.axisB);\n bodyA.vectorToWorldFrame(this.zA, r3.axisA);\n bodyB.vectorToWorldFrame(this.xB, r3.axisB);\n }\n\n}\n\n/**\n * Rotational motor constraint. Tries to keep the relative angular velocity of the bodies to a given value.\n */\nclass RotationalMotorEquation extends Equation {\n /**\n * World oriented rotational axis.\n */\n\n /**\n * World oriented rotational axis.\n */\n\n /**\n * Motor velocity.\n */\n constructor(bodyA, bodyB, maxForce = 1e6) {\n super(bodyA, bodyB, -maxForce, maxForce);\n this.axisA = void 0;\n this.axisB = void 0;\n this.targetVelocity = void 0;\n this.axisA = new Vec3();\n this.axisB = new Vec3();\n this.targetVelocity = 0;\n }\n\n computeB(h) {\n this.a;\n const b = this.b;\n this.bi;\n this.bj;\n const axisA = this.axisA;\n const axisB = this.axisB;\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB; // g = 0\n // gdot = axisA * wi - axisB * wj\n // gdot = G * W = G * [vi wi vj wj]\n // =>\n // G = [0 axisA 0 -axisB]\n\n GA.rotational.copy(axisA);\n axisB.negate(GB.rotational);\n const GW = this.computeGW() - this.targetVelocity;\n const GiMf = this.computeGiMf();\n const B = -GW * b - h * GiMf;\n return B;\n }\n\n}\n\n/**\n * Hinge constraint. Think of it as a door hinge. It tries to keep the door in the correct place and with the correct orientation.\n */\nclass HingeConstraint extends PointToPointConstraint {\n /**\n * Rotation axis, defined locally in bodyA.\n */\n\n /**\n * Rotation axis, defined locally in bodyB.\n */\n constructor(bodyA, bodyB, options = {}) {\n const maxForce = typeof options.maxForce !== 'undefined' ? options.maxForce : 1e6;\n const pivotA = options.pivotA ? options.pivotA.clone() : new Vec3();\n const pivotB = options.pivotB ? options.pivotB.clone() : new Vec3();\n super(bodyA, pivotA, bodyB, pivotB, maxForce);\n this.axisA = void 0;\n this.axisB = void 0;\n this.rotationalEquation1 = void 0;\n this.rotationalEquation2 = void 0;\n this.motorEquation = void 0;\n const axisA = this.axisA = options.axisA ? options.axisA.clone() : new Vec3(1, 0, 0);\n axisA.normalize();\n const axisB = this.axisB = options.axisB ? options.axisB.clone() : new Vec3(1, 0, 0);\n axisB.normalize();\n this.collideConnected = !!options.collideConnected;\n const rotational1 = this.rotationalEquation1 = new RotationalEquation(bodyA, bodyB, options);\n const rotational2 = this.rotationalEquation2 = new RotationalEquation(bodyA, bodyB, options);\n const motor = this.motorEquation = new RotationalMotorEquation(bodyA, bodyB, maxForce);\n motor.enabled = false; // Not enabled by default\n // Equations to be fed to the solver\n\n this.equations.push(rotational1, rotational2, motor);\n }\n /**\n * enableMotor\n */\n\n\n enableMotor() {\n this.motorEquation.enabled = true;\n }\n /**\n * disableMotor\n */\n\n\n disableMotor() {\n this.motorEquation.enabled = false;\n }\n /**\n * setMotorSpeed\n */\n\n\n setMotorSpeed(speed) {\n this.motorEquation.targetVelocity = speed;\n }\n /**\n * setMotorMaxForce\n */\n\n\n setMotorMaxForce(maxForce) {\n this.motorEquation.maxForce = maxForce;\n this.motorEquation.minForce = -maxForce;\n }\n /**\n * update\n */\n\n\n update() {\n const bodyA = this.bodyA;\n const bodyB = this.bodyB;\n const motor = this.motorEquation;\n const r1 = this.rotationalEquation1;\n const r2 = this.rotationalEquation2;\n const worldAxisA = HingeConstraint_update_tmpVec1;\n const worldAxisB = HingeConstraint_update_tmpVec2;\n const axisA = this.axisA;\n const axisB = this.axisB;\n super.update(); // Get world axes\n\n bodyA.quaternion.vmult(axisA, worldAxisA);\n bodyB.quaternion.vmult(axisB, worldAxisB);\n worldAxisA.tangents(r1.axisA, r2.axisA);\n r1.axisB.copy(worldAxisB);\n r2.axisB.copy(worldAxisB);\n\n if (this.motorEquation.enabled) {\n bodyA.quaternion.vmult(this.axisA, motor.axisA);\n bodyB.quaternion.vmult(this.axisB, motor.axisB);\n }\n }\n\n}\nconst HingeConstraint_update_tmpVec1 = new Vec3();\nconst HingeConstraint_update_tmpVec2 = new Vec3();\n\n/**\n * Constrains the slipping in a contact along a tangent\n */\nclass FrictionEquation extends Equation {\n // Tangent\n\n /**\n * @param slipForce should be +-F_friction = +-mu * F_normal = +-mu * m * g\n */\n constructor(bodyA, bodyB, slipForce) {\n super(bodyA, bodyB, -slipForce, slipForce);\n this.ri = void 0;\n this.rj = void 0;\n this.t = void 0;\n this.ri = new Vec3();\n this.rj = new Vec3();\n this.t = new Vec3();\n }\n\n computeB(h) {\n this.a;\n const b = this.b;\n this.bi;\n this.bj;\n const ri = this.ri;\n const rj = this.rj;\n const rixt = FrictionEquation_computeB_temp1;\n const rjxt = FrictionEquation_computeB_temp2;\n const t = this.t; // Caluclate cross products\n\n ri.cross(t, rixt);\n rj.cross(t, rjxt); // G = [-t -rixt t rjxt]\n // And remember, this is a pure velocity constraint, g is always zero!\n\n const GA = this.jacobianElementA;\n const GB = this.jacobianElementB;\n t.negate(GA.spatial);\n rixt.negate(GA.rotational);\n GB.spatial.copy(t);\n GB.rotational.copy(rjxt);\n const GW = this.computeGW();\n const GiMf = this.computeGiMf();\n const B = -GW * b - h * GiMf;\n return B;\n }\n\n}\nconst FrictionEquation_computeB_temp1 = new Vec3();\nconst FrictionEquation_computeB_temp2 = new Vec3();\n\n/**\n * Defines what happens when two materials meet.\n * @todo Refactor materials to materialA and materialB\n */\nclass ContactMaterial {\n /**\n * Identifier of this material.\n */\n\n /**\n * Participating materials.\n */\n\n /**\n * Friction coefficient.\n * @default 0.3\n */\n\n /**\n * Restitution coefficient.\n * @default 0.3\n */\n\n /**\n * Stiffness of the produced contact equations.\n * @default 1e7\n */\n\n /**\n * Relaxation time of the produced contact equations.\n * @default 3\n */\n\n /**\n * Stiffness of the produced friction equations.\n * @default 1e7\n */\n\n /**\n * Relaxation time of the produced friction equations\n * @default 3\n */\n constructor(m1, m2, options) {\n this.id = void 0;\n this.materials = void 0;\n this.friction = void 0;\n this.restitution = void 0;\n this.contactEquationStiffness = void 0;\n this.contactEquationRelaxation = void 0;\n this.frictionEquationStiffness = void 0;\n this.frictionEquationRelaxation = void 0;\n options = Utils.defaults(options, {\n friction: 0.3,\n restitution: 0.3,\n contactEquationStiffness: 1e7,\n contactEquationRelaxation: 3,\n frictionEquationStiffness: 1e7,\n frictionEquationRelaxation: 3\n });\n this.id = ContactMaterial.idCounter++;\n this.materials = [m1, m2];\n this.friction = options.friction;\n this.restitution = options.restitution;\n this.contactEquationStiffness = options.contactEquationStiffness;\n this.contactEquationRelaxation = options.contactEquationRelaxation;\n this.frictionEquationStiffness = options.frictionEquationStiffness;\n this.frictionEquationRelaxation = options.frictionEquationRelaxation;\n }\n\n}\nContactMaterial.idCounter = 0;\n\n/**\n * Defines a physics material.\n */\nclass Material {\n /**\n * Material name.\n * If options is a string, name will be set to that string.\n * @todo Deprecate this\n */\n\n /** Material id. */\n\n /**\n * Friction for this material.\n * If non-negative, it will be used instead of the friction given by ContactMaterials. If there's no matching ContactMaterial, the value from `defaultContactMaterial` in the World will be used.\n */\n\n /**\n * Restitution for this material.\n * If non-negative, it will be used instead of the restitution given by ContactMaterials. If there's no matching ContactMaterial, the value from `defaultContactMaterial` in the World will be used.\n */\n constructor(options = {}) {\n this.name = void 0;\n this.id = void 0;\n this.friction = void 0;\n this.restitution = void 0;\n let name = ''; // Backwards compatibility fix\n\n if (typeof options === 'string') {\n //console.warn(`Passing a string to MaterialOptions is deprecated, and has no effect`)\n name = options;\n options = {};\n }\n\n this.name = name;\n this.id = Material.idCounter++;\n this.friction = typeof options.friction !== 'undefined' ? options.friction : -1;\n this.restitution = typeof options.restitution !== 'undefined' ? options.restitution : -1;\n }\n\n}\nMaterial.idCounter = 0;\n\n/**\n * A spring, connecting two bodies.\n * @example\n * const spring = new Spring(boxBody, sphereBody, {\n * restLength: 0,\n * stiffness: 50,\n * damping: 1,\n * })\n *\n * // Compute the force after each step\n * world.addEventListener('postStep', (event) => {\n * spring.applyForce()\n * })\n */\nclass Spring {\n /**\n * Rest length of the spring. A number > 0.\n * @default 1\n */\n\n /**\n * Stiffness of the spring. A number >= 0.\n * @default 100\n */\n\n /**\n * Damping of the spring. A number >= 0.\n * @default 1\n */\n\n /**\n * First connected body.\n */\n\n /**\n * Second connected body.\n */\n\n /**\n * Anchor for bodyA in local bodyA coordinates.\n * Where to hook the spring to body A, in local body coordinates.\n * @default new Vec3()\n */\n\n /**\n * Anchor for bodyB in local bodyB coordinates.\n * Where to hook the spring to body B, in local body coordinates.\n * @default new Vec3()\n */\n constructor(bodyA, bodyB, options = {}) {\n this.restLength = void 0;\n this.stiffness = void 0;\n this.damping = void 0;\n this.bodyA = void 0;\n this.bodyB = void 0;\n this.localAnchorA = void 0;\n this.localAnchorB = void 0;\n this.restLength = typeof options.restLength === 'number' ? options.restLength : 1;\n this.stiffness = options.stiffness || 100;\n this.damping = options.damping || 1;\n this.bodyA = bodyA;\n this.bodyB = bodyB;\n this.localAnchorA = new Vec3();\n this.localAnchorB = new Vec3();\n\n if (options.localAnchorA) {\n this.localAnchorA.copy(options.localAnchorA);\n }\n\n if (options.localAnchorB) {\n this.localAnchorB.copy(options.localAnchorB);\n }\n\n if (options.worldAnchorA) {\n this.setWorldAnchorA(options.worldAnchorA);\n }\n\n if (options.worldAnchorB) {\n this.setWorldAnchorB(options.worldAnchorB);\n }\n }\n /**\n * Set the anchor point on body A, using world coordinates.\n */\n\n\n setWorldAnchorA(worldAnchorA) {\n this.bodyA.pointToLocalFrame(worldAnchorA, this.localAnchorA);\n }\n /**\n * Set the anchor point on body B, using world coordinates.\n */\n\n\n setWorldAnchorB(worldAnchorB) {\n this.bodyB.pointToLocalFrame(worldAnchorB, this.localAnchorB);\n }\n /**\n * Get the anchor point on body A, in world coordinates.\n * @param result The vector to store the result in.\n */\n\n\n getWorldAnchorA(result) {\n this.bodyA.pointToWorldFrame(this.localAnchorA, result);\n }\n /**\n * Get the anchor point on body B, in world coordinates.\n * @param result The vector to store the result in.\n */\n\n\n getWorldAnchorB(result) {\n this.bodyB.pointToWorldFrame(this.localAnchorB, result);\n }\n /**\n * Apply the spring force to the connected bodies.\n */\n\n\n applyForce() {\n const k = this.stiffness;\n const d = this.damping;\n const l = this.restLength;\n const bodyA = this.bodyA;\n const bodyB = this.bodyB;\n const r = applyForce_r;\n const r_unit = applyForce_r_unit;\n const u = applyForce_u;\n const f = applyForce_f;\n const tmp = applyForce_tmp;\n const worldAnchorA = applyForce_worldAnchorA;\n const worldAnchorB = applyForce_worldAnchorB;\n const ri = applyForce_ri;\n const rj = applyForce_rj;\n const ri_x_f = applyForce_ri_x_f;\n const rj_x_f = applyForce_rj_x_f; // Get world anchors\n\n this.getWorldAnchorA(worldAnchorA);\n this.getWorldAnchorB(worldAnchorB); // Get offset points\n\n worldAnchorA.vsub(bodyA.position, ri);\n worldAnchorB.vsub(bodyB.position, rj); // Compute distance vector between world anchor points\n\n worldAnchorB.vsub(worldAnchorA, r);\n const rlen = r.length();\n r_unit.copy(r);\n r_unit.normalize(); // Compute relative velocity of the anchor points, u\n\n bodyB.velocity.vsub(bodyA.velocity, u); // Add rotational velocity\n\n bodyB.angularVelocity.cross(rj, tmp);\n u.vadd(tmp, u);\n bodyA.angularVelocity.cross(ri, tmp);\n u.vsub(tmp, u); // F = - k * ( x - L ) - D * ( u )\n\n r_unit.scale(-k * (rlen - l) - d * u.dot(r_unit), f); // Add forces to bodies\n\n bodyA.force.vsub(f, bodyA.force);\n bodyB.force.vadd(f, bodyB.force); // Angular force\n\n ri.cross(f, ri_x_f);\n rj.cross(f, rj_x_f);\n bodyA.torque.vsub(ri_x_f, bodyA.torque);\n bodyB.torque.vadd(rj_x_f, bodyB.torque);\n }\n\n}\nconst applyForce_r = new Vec3();\nconst applyForce_r_unit = new Vec3();\nconst applyForce_u = new Vec3();\nconst applyForce_f = new Vec3();\nconst applyForce_worldAnchorA = new Vec3();\nconst applyForce_worldAnchorB = new Vec3();\nconst applyForce_ri = new Vec3();\nconst applyForce_rj = new Vec3();\nconst applyForce_ri_x_f = new Vec3();\nconst applyForce_rj_x_f = new Vec3();\nconst applyForce_tmp = new Vec3();\n\n/**\n * WheelInfo\n */\nclass WheelInfo {\n /**\n * Max travel distance of the suspension, in meters.\n * @default 1\n */\n\n /**\n * Speed to apply to the wheel rotation when the wheel is sliding.\n * @default -0.1\n */\n\n /**\n * If the customSlidingRotationalSpeed should be used.\n * @default false\n */\n\n /**\n * sliding\n */\n\n /**\n * Connection point, defined locally in the chassis body frame.\n */\n\n /**\n * chassisConnectionPointWorld\n */\n\n /**\n * directionLocal\n */\n\n /**\n * directionWorld\n */\n\n /**\n * axleLocal\n */\n\n /**\n * axleWorld\n */\n\n /**\n * suspensionRestLength\n * @default 1\n */\n\n /**\n * suspensionMaxLength\n * @default 2\n */\n\n /**\n * radius\n * @default 1\n */\n\n /**\n * suspensionStiffness\n * @default 100\n */\n\n /**\n * dampingCompression\n * @default 10\n */\n\n /**\n * dampingRelaxation\n * @default 10\n */\n\n /**\n * frictionSlip\n * @default 10.5\n */\n\n /** forwardAcceleration */\n\n /** sideAcceleration */\n\n /**\n * steering\n * @default 0\n */\n\n /**\n * Rotation value, in radians.\n * @default 0\n */\n\n /**\n * deltaRotation\n * @default 0\n */\n\n /**\n * rollInfluence\n * @default 0.01\n */\n\n /**\n * maxSuspensionForce\n */\n\n /**\n * engineForce\n */\n\n /**\n * brake\n */\n\n /**\n * isFrontWheel\n * @default true\n */\n\n /**\n * clippedInvContactDotSuspension\n * @default 1\n */\n\n /**\n * suspensionRelativeVelocity\n * @default 0\n */\n\n /**\n * suspensionForce\n * @default 0\n */\n\n /**\n * slipInfo\n */\n\n /**\n * skidInfo\n * @default 0\n */\n\n /**\n * suspensionLength\n * @default 0\n */\n\n /**\n * sideImpulse\n */\n\n /**\n * forwardImpulse\n */\n\n /**\n * The result from raycasting.\n */\n\n /**\n * Wheel world transform.\n */\n\n /**\n * isInContact\n */\n constructor(options = {}) {\n this.maxSuspensionTravel = void 0;\n this.customSlidingRotationalSpeed = void 0;\n this.useCustomSlidingRotationalSpeed = void 0;\n this.sliding = void 0;\n this.chassisConnectionPointLocal = void 0;\n this.chassisConnectionPointWorld = void 0;\n this.directionLocal = void 0;\n this.directionWorld = void 0;\n this.axleLocal = void 0;\n this.axleWorld = void 0;\n this.suspensionRestLength = void 0;\n this.suspensionMaxLength = void 0;\n this.radius = void 0;\n this.suspensionStiffness = void 0;\n this.dampingCompression = void 0;\n this.dampingRelaxation = void 0;\n this.frictionSlip = void 0;\n this.forwardAcceleration = void 0;\n this.sideAcceleration = void 0;\n this.steering = void 0;\n this.rotation = void 0;\n this.deltaRotation = void 0;\n this.rollInfluence = void 0;\n this.maxSuspensionForce = void 0;\n this.engineForce = void 0;\n this.brake = void 0;\n this.isFrontWheel = void 0;\n this.clippedInvContactDotSuspension = void 0;\n this.suspensionRelativeVelocity = void 0;\n this.suspensionForce = void 0;\n this.slipInfo = void 0;\n this.skidInfo = void 0;\n this.suspensionLength = void 0;\n this.sideImpulse = void 0;\n this.forwardImpulse = void 0;\n this.raycastResult = void 0;\n this.worldTransform = void 0;\n this.isInContact = void 0;\n options = Utils.defaults(options, {\n chassisConnectionPointLocal: new Vec3(),\n chassisConnectionPointWorld: new Vec3(),\n directionLocal: new Vec3(),\n directionWorld: new Vec3(),\n axleLocal: new Vec3(),\n axleWorld: new Vec3(),\n suspensionRestLength: 1,\n suspensionMaxLength: 2,\n radius: 1,\n suspensionStiffness: 100,\n dampingCompression: 10,\n dampingRelaxation: 10,\n frictionSlip: 10.5,\n forwardAcceleration: 1,\n sideAcceleration: 1,\n steering: 0,\n rotation: 0,\n deltaRotation: 0,\n rollInfluence: 0.01,\n maxSuspensionForce: Number.MAX_VALUE,\n isFrontWheel: true,\n clippedInvContactDotSuspension: 1,\n suspensionRelativeVelocity: 0,\n suspensionForce: 0,\n slipInfo: 0,\n skidInfo: 0,\n suspensionLength: 0,\n maxSuspensionTravel: 1,\n useCustomSlidingRotationalSpeed: false,\n customSlidingRotationalSpeed: -0.1\n });\n this.maxSuspensionTravel = options.maxSuspensionTravel;\n this.customSlidingRotationalSpeed = options.customSlidingRotationalSpeed;\n this.useCustomSlidingRotationalSpeed = options.useCustomSlidingRotationalSpeed;\n this.sliding = false;\n this.chassisConnectionPointLocal = options.chassisConnectionPointLocal.clone();\n this.chassisConnectionPointWorld = options.chassisConnectionPointWorld.clone();\n this.directionLocal = options.directionLocal.clone();\n this.directionWorld = options.directionWorld.clone();\n this.axleLocal = options.axleLocal.clone();\n this.axleWorld = options.axleWorld.clone();\n this.suspensionRestLength = options.suspensionRestLength;\n this.suspensionMaxLength = options.suspensionMaxLength;\n this.radius = options.radius;\n this.suspensionStiffness = options.suspensionStiffness;\n this.dampingCompression = options.dampingCompression;\n this.dampingRelaxation = options.dampingRelaxation;\n this.frictionSlip = options.frictionSlip;\n this.forwardAcceleration = options.forwardAcceleration;\n this.sideAcceleration = options.sideAcceleration;\n this.steering = 0;\n this.rotation = 0;\n this.deltaRotation = 0;\n this.rollInfluence = options.rollInfluence;\n this.maxSuspensionForce = options.maxSuspensionForce;\n this.engineForce = 0;\n this.brake = 0;\n this.isFrontWheel = options.isFrontWheel;\n this.clippedInvContactDotSuspension = 1;\n this.suspensionRelativeVelocity = 0;\n this.suspensionForce = 0;\n this.slipInfo = 0;\n this.skidInfo = 0;\n this.suspensionLength = 0;\n this.sideImpulse = 0;\n this.forwardImpulse = 0;\n this.raycastResult = new RaycastResult();\n this.worldTransform = new Transform();\n this.isInContact = false;\n }\n\n updateWheel(chassis) {\n const raycastResult = this.raycastResult;\n\n if (this.isInContact) {\n const project = raycastResult.hitNormalWorld.dot(raycastResult.directionWorld);\n raycastResult.hitPointWorld.vsub(chassis.position, relpos);\n chassis.getVelocityAtWorldPoint(relpos, chassis_velocity_at_contactPoint);\n const projVel = raycastResult.hitNormalWorld.dot(chassis_velocity_at_contactPoint);\n\n if (project >= -0.1) {\n this.suspensionRelativeVelocity = 0.0;\n this.clippedInvContactDotSuspension = 1.0 / 0.1;\n } else {\n const inv = -1 / project;\n this.suspensionRelativeVelocity = projVel * inv;\n this.clippedInvContactDotSuspension = inv;\n }\n } else {\n // Not in contact : position wheel in a nice (rest length) position\n raycastResult.suspensionLength = this.suspensionRestLength;\n this.suspensionRelativeVelocity = 0.0;\n raycastResult.directionWorld.scale(-1, raycastResult.hitNormalWorld);\n this.clippedInvContactDotSuspension = 1.0;\n }\n }\n\n}\nconst chassis_velocity_at_contactPoint = new Vec3();\nconst relpos = new Vec3();\n\n/**\n * Vehicle helper class that casts rays from the wheel positions towards the ground and applies forces.\n */\nclass RaycastVehicle {\n /** The car chassis body. */\n\n /** The wheels. */\n\n /** Will be set to true if the car is sliding. */\n\n /** Index of the right axis. x=0, y=1, z=2 */\n\n /** Index of the forward axis. x=0, y=1, z=2 */\n\n /** Index of the up axis. x=0, y=1, z=2 */\n\n /** The constraints. */\n\n /** Optional pre-step callback. */\n\n /** Number of wheels on the ground. */\n constructor(options) {\n this.chassisBody = void 0;\n this.wheelInfos = void 0;\n this.sliding = void 0;\n this.world = void 0;\n this.indexRightAxis = void 0;\n this.indexForwardAxis = void 0;\n this.indexUpAxis = void 0;\n this.constraints = void 0;\n this.preStepCallback = void 0;\n this.currentVehicleSpeedKmHour = void 0;\n this.numWheelsOnGround = void 0;\n this.chassisBody = options.chassisBody;\n this.wheelInfos = [];\n this.sliding = false;\n this.world = null;\n this.indexRightAxis = typeof options.indexRightAxis !== 'undefined' ? options.indexRightAxis : 2;\n this.indexForwardAxis = typeof options.indexForwardAxis !== 'undefined' ? options.indexForwardAxis : 0;\n this.indexUpAxis = typeof options.indexUpAxis !== 'undefined' ? options.indexUpAxis : 1;\n this.constraints = [];\n\n this.preStepCallback = () => {};\n\n this.currentVehicleSpeedKmHour = 0;\n this.numWheelsOnGround = 0;\n }\n /**\n * Add a wheel. For information about the options, see `WheelInfo`.\n */\n\n\n addWheel(options = {}) {\n const info = new WheelInfo(options);\n const index = this.wheelInfos.length;\n this.wheelInfos.push(info);\n return index;\n }\n /**\n * Set the steering value of a wheel.\n */\n\n\n setSteeringValue(value, wheelIndex) {\n const wheel = this.wheelInfos[wheelIndex];\n wheel.steering = value;\n }\n /**\n * Set the wheel force to apply on one of the wheels each time step\n */\n\n\n applyEngineForce(value, wheelIndex) {\n this.wheelInfos[wheelIndex].engineForce = value;\n }\n /**\n * Set the braking force of a wheel\n */\n\n\n setBrake(brake, wheelIndex) {\n this.wheelInfos[wheelIndex].brake = brake;\n }\n /**\n * Add the vehicle including its constraints to the world.\n */\n\n\n addToWorld(world) {\n world.addBody(this.chassisBody);\n const that = this;\n\n this.preStepCallback = () => {\n that.updateVehicle(world.dt);\n };\n\n world.addEventListener('preStep', this.preStepCallback);\n this.world = world;\n }\n /**\n * Get one of the wheel axles, world-oriented.\n */\n\n\n getVehicleAxisWorld(axisIndex, result) {\n result.set(axisIndex === 0 ? 1 : 0, axisIndex === 1 ? 1 : 0, axisIndex === 2 ? 1 : 0);\n this.chassisBody.vectorToWorldFrame(result, result);\n }\n\n updateVehicle(timeStep) {\n const wheelInfos = this.wheelInfos;\n const numWheels = wheelInfos.length;\n const chassisBody = this.chassisBody;\n\n for (let i = 0; i < numWheels; i++) {\n this.updateWheelTransform(i);\n }\n\n this.currentVehicleSpeedKmHour = 3.6 * chassisBody.velocity.length();\n const forwardWorld = new Vec3();\n this.getVehicleAxisWorld(this.indexForwardAxis, forwardWorld);\n\n if (forwardWorld.dot(chassisBody.velocity) < 0) {\n this.currentVehicleSpeedKmHour *= -1;\n } // simulate suspension\n\n\n for (let i = 0; i < numWheels; i++) {\n this.castRay(wheelInfos[i]);\n }\n\n this.updateSuspension(timeStep);\n const impulse = new Vec3();\n const relpos = new Vec3();\n\n for (let i = 0; i < numWheels; i++) {\n //apply suspension force\n const wheel = wheelInfos[i];\n let suspensionForce = wheel.suspensionForce;\n\n if (suspensionForce > wheel.maxSuspensionForce) {\n suspensionForce = wheel.maxSuspensionForce;\n }\n\n wheel.raycastResult.hitNormalWorld.scale(suspensionForce * timeStep, impulse);\n wheel.raycastResult.hitPointWorld.vsub(chassisBody.position, relpos);\n chassisBody.applyImpulse(impulse, relpos);\n }\n\n this.updateFriction(timeStep);\n const hitNormalWorldScaledWithProj = new Vec3();\n const fwd = new Vec3();\n const vel = new Vec3();\n\n for (let i = 0; i < numWheels; i++) {\n const wheel = wheelInfos[i]; //const relpos = new Vec3();\n //wheel.chassisConnectionPointWorld.vsub(chassisBody.position, relpos);\n\n chassisBody.getVelocityAtWorldPoint(wheel.chassisConnectionPointWorld, vel); // Hack to get the rotation in the correct direction\n\n let m = 1;\n\n switch (this.indexUpAxis) {\n case 1:\n m = -1;\n break;\n }\n\n if (wheel.isInContact) {\n this.getVehicleAxisWorld(this.indexForwardAxis, fwd);\n const proj = fwd.dot(wheel.raycastResult.hitNormalWorld);\n wheel.raycastResult.hitNormalWorld.scale(proj, hitNormalWorldScaledWithProj);\n fwd.vsub(hitNormalWorldScaledWithProj, fwd);\n const proj2 = fwd.dot(vel);\n wheel.deltaRotation = m * proj2 * timeStep / wheel.radius;\n }\n\n if ((wheel.sliding || !wheel.isInContact) && wheel.engineForce !== 0 && wheel.useCustomSlidingRotationalSpeed) {\n // Apply custom rotation when accelerating and sliding\n wheel.deltaRotation = (wheel.engineForce > 0 ? 1 : -1) * wheel.customSlidingRotationalSpeed * timeStep;\n } // Lock wheels\n\n\n if (Math.abs(wheel.brake) > Math.abs(wheel.engineForce)) {\n wheel.deltaRotation = 0;\n }\n\n wheel.rotation += wheel.deltaRotation; // Use the old value\n\n wheel.deltaRotation *= 0.99; // damping of rotation when not in contact\n }\n }\n\n updateSuspension(deltaTime) {\n const chassisBody = this.chassisBody;\n const chassisMass = chassisBody.mass;\n const wheelInfos = this.wheelInfos;\n const numWheels = wheelInfos.length;\n\n for (let w_it = 0; w_it < numWheels; w_it++) {\n const wheel = wheelInfos[w_it];\n\n if (wheel.isInContact) {\n let force; // Spring\n\n const susp_length = wheel.suspensionRestLength;\n const current_length = wheel.suspensionLength;\n const length_diff = susp_length - current_length;\n force = wheel.suspensionStiffness * length_diff * wheel.clippedInvContactDotSuspension; // Damper\n\n const projected_rel_vel = wheel.suspensionRelativeVelocity;\n let susp_damping;\n\n if (projected_rel_vel < 0) {\n susp_damping = wheel.dampingCompression;\n } else {\n susp_damping = wheel.dampingRelaxation;\n }\n\n force -= susp_damping * projected_rel_vel;\n wheel.suspensionForce = force * chassisMass;\n\n if (wheel.suspensionForce < 0) {\n wheel.suspensionForce = 0;\n }\n } else {\n wheel.suspensionForce = 0;\n }\n }\n }\n /**\n * Remove the vehicle including its constraints from the world.\n */\n\n\n removeFromWorld(world) {\n this.constraints;\n world.removeBody(this.chassisBody);\n world.removeEventListener('preStep', this.preStepCallback);\n this.world = null;\n }\n\n castRay(wheel) {\n const rayvector = castRay_rayvector;\n const target = castRay_target;\n this.updateWheelTransformWorld(wheel);\n const chassisBody = this.chassisBody;\n let depth = -1;\n const raylen = wheel.suspensionRestLength + wheel.radius;\n wheel.directionWorld.scale(raylen, rayvector);\n const source = wheel.chassisConnectionPointWorld;\n source.vadd(rayvector, target);\n const raycastResult = wheel.raycastResult;\n raycastResult.reset(); // Turn off ray collision with the chassis temporarily\n\n const oldState = chassisBody.collisionResponse;\n chassisBody.collisionResponse = false; // Cast ray against world\n\n this.world.rayTest(source, target, raycastResult);\n chassisBody.collisionResponse = oldState;\n const object = raycastResult.body;\n wheel.raycastResult.groundObject = 0;\n\n if (object) {\n depth = raycastResult.distance;\n wheel.raycastResult.hitNormalWorld = raycastResult.hitNormalWorld;\n wheel.isInContact = true;\n const hitDistance = raycastResult.distance;\n wheel.suspensionLength = hitDistance - wheel.radius; // clamp on max suspension travel\n\n const minSuspensionLength = wheel.suspensionRestLength - wheel.maxSuspensionTravel;\n const maxSuspensionLength = wheel.suspensionRestLength + wheel.maxSuspensionTravel;\n\n if (wheel.suspensionLength < minSuspensionLength) {\n wheel.suspensionLength = minSuspensionLength;\n }\n\n if (wheel.suspensionLength > maxSuspensionLength) {\n wheel.suspensionLength = maxSuspensionLength;\n wheel.raycastResult.reset();\n }\n\n const denominator = wheel.raycastResult.hitNormalWorld.dot(wheel.directionWorld);\n const chassis_velocity_at_contactPoint = new Vec3();\n chassisBody.getVelocityAtWorldPoint(wheel.raycastResult.hitPointWorld, chassis_velocity_at_contactPoint);\n const projVel = wheel.raycastResult.hitNormalWorld.dot(chassis_velocity_at_contactPoint);\n\n if (denominator >= -0.1) {\n wheel.suspensionRelativeVelocity = 0;\n wheel.clippedInvContactDotSuspension = 1 / 0.1;\n } else {\n const inv = -1 / denominator;\n wheel.suspensionRelativeVelocity = projVel * inv;\n wheel.clippedInvContactDotSuspension = inv;\n }\n } else {\n //put wheel info as in rest position\n wheel.suspensionLength = wheel.suspensionRestLength + 0 * wheel.maxSuspensionTravel;\n wheel.suspensionRelativeVelocity = 0.0;\n wheel.directionWorld.scale(-1, wheel.raycastResult.hitNormalWorld);\n wheel.clippedInvContactDotSuspension = 1.0;\n }\n\n return depth;\n }\n\n updateWheelTransformWorld(wheel) {\n wheel.isInContact = false;\n const chassisBody = this.chassisBody;\n chassisBody.pointToWorldFrame(wheel.chassisConnectionPointLocal, wheel.chassisConnectionPointWorld);\n chassisBody.vectorToWorldFrame(wheel.directionLocal, wheel.directionWorld);\n chassisBody.vectorToWorldFrame(wheel.axleLocal, wheel.axleWorld);\n }\n /**\n * Update one of the wheel transform.\n * Note when rendering wheels: during each step, wheel transforms are updated BEFORE the chassis; ie. their position becomes invalid after the step. Thus when you render wheels, you must update wheel transforms before rendering them. See raycastVehicle demo for an example.\n * @param wheelIndex The wheel index to update.\n */\n\n\n updateWheelTransform(wheelIndex) {\n const up = tmpVec4;\n const right = tmpVec5;\n const fwd = tmpVec6;\n const wheel = this.wheelInfos[wheelIndex];\n this.updateWheelTransformWorld(wheel);\n wheel.directionLocal.scale(-1, up);\n right.copy(wheel.axleLocal);\n up.cross(right, fwd);\n fwd.normalize();\n right.normalize(); // Rotate around steering over the wheelAxle\n\n const steering = wheel.steering;\n const steeringOrn = new Quaternion();\n steeringOrn.setFromAxisAngle(up, steering);\n const rotatingOrn = new Quaternion();\n rotatingOrn.setFromAxisAngle(right, wheel.rotation); // World rotation of the wheel\n\n const q = wheel.worldTransform.quaternion;\n this.chassisBody.quaternion.mult(steeringOrn, q);\n q.mult(rotatingOrn, q);\n q.normalize(); // world position of the wheel\n\n const p = wheel.worldTransform.position;\n p.copy(wheel.directionWorld);\n p.scale(wheel.suspensionLength, p);\n p.vadd(wheel.chassisConnectionPointWorld, p);\n }\n /**\n * Get the world transform of one of the wheels\n */\n\n\n getWheelTransformWorld(wheelIndex) {\n return this.wheelInfos[wheelIndex].worldTransform;\n }\n\n updateFriction(timeStep) {\n const surfNormalWS_scaled_proj = updateFriction_surfNormalWS_scaled_proj; //calculate the impulse, so that the wheels don't move sidewards\n\n const wheelInfos = this.wheelInfos;\n const numWheels = wheelInfos.length;\n const chassisBody = this.chassisBody;\n const forwardWS = updateFriction_forwardWS;\n const axle = updateFriction_axle;\n this.numWheelsOnGround = 0;\n\n for (let i = 0; i < numWheels; i++) {\n const wheel = wheelInfos[i];\n const groundObject = wheel.raycastResult.body;\n\n if (groundObject) {\n this.numWheelsOnGround++;\n }\n\n wheel.sideImpulse = 0;\n wheel.forwardImpulse = 0;\n\n if (!forwardWS[i]) {\n forwardWS[i] = new Vec3();\n }\n\n if (!axle[i]) {\n axle[i] = new Vec3();\n }\n }\n\n for (let i = 0; i < numWheels; i++) {\n const wheel = wheelInfos[i];\n const groundObject = wheel.raycastResult.body;\n\n if (groundObject) {\n const axlei = axle[i];\n const wheelTrans = this.getWheelTransformWorld(i); // Get world axle\n\n wheelTrans.vectorToWorldFrame(directions[this.indexRightAxis], axlei);\n const surfNormalWS = wheel.raycastResult.hitNormalWorld;\n const proj = axlei.dot(surfNormalWS);\n surfNormalWS.scale(proj, surfNormalWS_scaled_proj);\n axlei.vsub(surfNormalWS_scaled_proj, axlei);\n axlei.normalize();\n surfNormalWS.cross(axlei, forwardWS[i]);\n forwardWS[i].normalize();\n wheel.sideImpulse = resolveSingleBilateral(chassisBody, wheel.raycastResult.hitPointWorld, groundObject, wheel.raycastResult.hitPointWorld, axlei);\n wheel.sideImpulse *= sideFrictionStiffness2;\n }\n }\n\n const sideFactor = 1;\n const fwdFactor = 0.5;\n this.sliding = false;\n\n for (let i = 0; i < numWheels; i++) {\n const wheel = wheelInfos[i];\n const groundObject = wheel.raycastResult.body;\n let rollingFriction = 0;\n wheel.slipInfo = 1;\n\n if (groundObject) {\n const defaultRollingFrictionImpulse = 0;\n const maxImpulse = wheel.brake ? wheel.brake : defaultRollingFrictionImpulse; // btWheelContactPoint contactPt(chassisBody,groundObject,wheelInfraycastInfo.hitPointWorld,forwardWS[wheel],maxImpulse);\n // rollingFriction = calcRollingFriction(contactPt);\n\n rollingFriction = calcRollingFriction(chassisBody, groundObject, wheel.raycastResult.hitPointWorld, forwardWS[i], maxImpulse);\n rollingFriction += wheel.engineForce * timeStep; // rollingFriction = 0;\n\n const factor = maxImpulse / rollingFriction;\n wheel.slipInfo *= factor;\n } //switch between active rolling (throttle), braking and non-active rolling friction (nthrottle/break)\n\n\n wheel.forwardImpulse = 0;\n wheel.skidInfo = 1;\n\n if (groundObject) {\n wheel.skidInfo = 1;\n const maximp = wheel.suspensionForce * timeStep * wheel.frictionSlip;\n const maximpSide = maximp;\n const maximpSquared = maximp * maximpSide;\n wheel.forwardImpulse = rollingFriction; //wheelInfo.engineForce* timeStep;\n\n const x = wheel.forwardImpulse * fwdFactor / wheel.forwardAcceleration;\n const y = wheel.sideImpulse * sideFactor / wheel.sideAcceleration;\n const impulseSquared = x * x + y * y;\n wheel.sliding = false;\n\n if (impulseSquared > maximpSquared) {\n this.sliding = true;\n wheel.sliding = true;\n const factor = maximp / Math.sqrt(impulseSquared);\n wheel.skidInfo *= factor;\n }\n }\n }\n\n if (this.sliding) {\n for (let i = 0; i < numWheels; i++) {\n const wheel = wheelInfos[i];\n\n if (wheel.sideImpulse !== 0) {\n if (wheel.skidInfo < 1) {\n wheel.forwardImpulse *= wheel.skidInfo;\n wheel.sideImpulse *= wheel.skidInfo;\n }\n }\n }\n } // apply the impulses\n\n\n for (let i = 0; i < numWheels; i++) {\n const wheel = wheelInfos[i];\n const rel_pos = new Vec3();\n wheel.raycastResult.hitPointWorld.vsub(chassisBody.position, rel_pos); // cannons applyimpulse is using world coord for the position\n //rel_pos.copy(wheel.raycastResult.hitPointWorld);\n\n if (wheel.forwardImpulse !== 0) {\n const impulse = new Vec3();\n forwardWS[i].scale(wheel.forwardImpulse, impulse);\n chassisBody.applyImpulse(impulse, rel_pos);\n }\n\n if (wheel.sideImpulse !== 0) {\n const groundObject = wheel.raycastResult.body;\n const rel_pos2 = new Vec3();\n wheel.raycastResult.hitPointWorld.vsub(groundObject.position, rel_pos2); //rel_pos2.copy(wheel.raycastResult.hitPointWorld);\n\n const sideImp = new Vec3();\n axle[i].scale(wheel.sideImpulse, sideImp); // Scale the relative position in the up direction with rollInfluence.\n // If rollInfluence is 1, the impulse will be applied on the hitPoint (easy to roll over), if it is zero it will be applied in the same plane as the center of mass (not easy to roll over).\n\n chassisBody.vectorToLocalFrame(rel_pos, rel_pos);\n rel_pos['xyz'[this.indexUpAxis]] *= wheel.rollInfluence;\n chassisBody.vectorToWorldFrame(rel_pos, rel_pos);\n chassisBody.applyImpulse(sideImp, rel_pos); //apply friction impulse on the ground\n\n sideImp.scale(-1, sideImp);\n groundObject.applyImpulse(sideImp, rel_pos2);\n }\n }\n }\n\n}\nconst tmpVec4 = new Vec3();\nconst tmpVec5 = new Vec3();\nconst tmpVec6 = new Vec3();\nnew Ray();\nconst castRay_rayvector = new Vec3();\nconst castRay_target = new Vec3();\nconst directions = [new Vec3(1, 0, 0), new Vec3(0, 1, 0), new Vec3(0, 0, 1)];\nconst updateFriction_surfNormalWS_scaled_proj = new Vec3();\nconst updateFriction_axle = [];\nconst updateFriction_forwardWS = [];\nconst sideFrictionStiffness2 = 1;\nconst calcRollingFriction_vel1 = new Vec3();\nconst calcRollingFriction_vel2 = new Vec3();\nconst calcRollingFriction_vel = new Vec3();\n\nfunction calcRollingFriction(body0, body1, frictionPosWorld, frictionDirectionWorld, maxImpulse) {\n let j1 = 0;\n const contactPosWorld = frictionPosWorld; // const rel_pos1 = new Vec3();\n // const rel_pos2 = new Vec3();\n\n const vel1 = calcRollingFriction_vel1;\n const vel2 = calcRollingFriction_vel2;\n const vel = calcRollingFriction_vel; // contactPosWorld.vsub(body0.position, rel_pos1);\n // contactPosWorld.vsub(body1.position, rel_pos2);\n\n body0.getVelocityAtWorldPoint(contactPosWorld, vel1);\n body1.getVelocityAtWorldPoint(contactPosWorld, vel2);\n vel1.vsub(vel2, vel);\n const vrel = frictionDirectionWorld.dot(vel);\n const denom0 = computeImpulseDenominator(body0, frictionPosWorld, frictionDirectionWorld);\n const denom1 = computeImpulseDenominator(body1, frictionPosWorld, frictionDirectionWorld);\n const relaxation = 1;\n const jacDiagABInv = relaxation / (denom0 + denom1); // calculate j that moves us to zero relative velocity\n\n j1 = -vrel * jacDiagABInv;\n\n if (maxImpulse < j1) {\n j1 = maxImpulse;\n }\n\n if (j1 < -maxImpulse) {\n j1 = -maxImpulse;\n }\n\n return j1;\n}\n\nconst computeImpulseDenominator_r0 = new Vec3();\nconst computeImpulseDenominator_c0 = new Vec3();\nconst computeImpulseDenominator_vec = new Vec3();\nconst computeImpulseDenominator_m = new Vec3();\n\nfunction computeImpulseDenominator(body, pos, normal) {\n const r0 = computeImpulseDenominator_r0;\n const c0 = computeImpulseDenominator_c0;\n const vec = computeImpulseDenominator_vec;\n const m = computeImpulseDenominator_m;\n pos.vsub(body.position, r0);\n r0.cross(normal, c0);\n body.invInertiaWorld.vmult(c0, m);\n m.cross(r0, vec);\n return body.invMass + normal.dot(vec);\n}\n\nconst resolveSingleBilateral_vel1 = new Vec3();\nconst resolveSingleBilateral_vel2 = new Vec3();\nconst resolveSingleBilateral_vel = new Vec3(); // bilateral constraint between two dynamic objects\n\nfunction resolveSingleBilateral(body1, pos1, body2, pos2, normal) {\n const normalLenSqr = normal.lengthSquared();\n\n if (normalLenSqr > 1.1) {\n return 0; // no impulse\n } // const rel_pos1 = new Vec3();\n // const rel_pos2 = new Vec3();\n // pos1.vsub(body1.position, rel_pos1);\n // pos2.vsub(body2.position, rel_pos2);\n\n\n const vel1 = resolveSingleBilateral_vel1;\n const vel2 = resolveSingleBilateral_vel2;\n const vel = resolveSingleBilateral_vel;\n body1.getVelocityAtWorldPoint(pos1, vel1);\n body2.getVelocityAtWorldPoint(pos2, vel2);\n vel1.vsub(vel2, vel);\n const rel_vel = normal.dot(vel);\n const contactDamping = 0.2;\n const massTerm = 1 / (body1.invMass + body2.invMass);\n const impulse = -contactDamping * rel_vel * massTerm;\n return impulse;\n}\n\n/**\n * Spherical shape\n * @example\n * const radius = 1\n * const sphereShape = new CANNON.Sphere(radius)\n * const sphereBody = new CANNON.Body({ mass: 1, shape: sphereShape })\n * world.addBody(sphereBody)\n */\nclass Sphere extends Shape {\n /**\n * The radius of the sphere.\n */\n\n /**\n *\n * @param radius The radius of the sphere, a non-negative number.\n */\n constructor(radius) {\n super({\n type: Shape.types.SPHERE\n });\n this.radius = void 0;\n this.radius = radius !== undefined ? radius : 1.0;\n\n if (this.radius < 0) {\n throw new Error('The sphere radius cannot be negative.');\n }\n\n this.updateBoundingSphereRadius();\n }\n /** calculateLocalInertia */\n\n\n calculateLocalInertia(mass, target = new Vec3()) {\n const I = 2.0 * mass * this.radius * this.radius / 5.0;\n target.x = I;\n target.y = I;\n target.z = I;\n return target;\n }\n /** volume */\n\n\n volume() {\n return 4.0 * Math.PI * Math.pow(this.radius, 3) / 3.0;\n }\n\n updateBoundingSphereRadius() {\n this.boundingSphereRadius = this.radius;\n }\n\n calculateWorldAABB(pos, quat, min, max) {\n const r = this.radius;\n const axes = ['x', 'y', 'z'];\n\n for (let i = 0; i < axes.length; i++) {\n const ax = axes[i];\n min[ax] = pos[ax] - r;\n max[ax] = pos[ax] + r;\n }\n }\n\n}\n\n/**\n * Simple vehicle helper class with spherical rigid body wheels.\n */\nclass RigidVehicle {\n /**\n * The bodies of the wheels.\n */\n\n /**\n * The chassis body.\n */\n\n /**\n * The constraints.\n */\n\n /**\n * The wheel axes.\n */\n\n /**\n * The wheel forces.\n */\n constructor(options = {}) {\n this.wheelBodies = void 0;\n this.coordinateSystem = void 0;\n this.chassisBody = void 0;\n this.constraints = void 0;\n this.wheelAxes = void 0;\n this.wheelForces = void 0;\n this.wheelBodies = [];\n this.coordinateSystem = typeof options.coordinateSystem !== 'undefined' ? options.coordinateSystem.clone() : new Vec3(1, 2, 3);\n\n if (options.chassisBody) {\n this.chassisBody = options.chassisBody;\n } else {\n // No chassis body given. Create it!\n this.chassisBody = new Body({\n mass: 1,\n shape: new Box(new Vec3(5, 0.5, 2))\n });\n }\n\n this.constraints = [];\n this.wheelAxes = [];\n this.wheelForces = [];\n }\n /**\n * Add a wheel\n */\n\n\n addWheel(options = {}) {\n let wheelBody;\n\n if (options.body) {\n wheelBody = options.body;\n } else {\n // No wheel body given. Create it!\n wheelBody = new Body({\n mass: 1,\n shape: new Sphere(1.2)\n });\n }\n\n this.wheelBodies.push(wheelBody);\n this.wheelForces.push(0); // Position constrain wheels\n\n const position = typeof options.position !== 'undefined' ? options.position.clone() : new Vec3(); // Set position locally to the chassis\n\n const worldPosition = new Vec3();\n this.chassisBody.pointToWorldFrame(position, worldPosition);\n wheelBody.position.set(worldPosition.x, worldPosition.y, worldPosition.z); // Constrain wheel\n\n const axis = typeof options.axis !== 'undefined' ? options.axis.clone() : new Vec3(0, 0, 1);\n this.wheelAxes.push(axis);\n const hingeConstraint = new HingeConstraint(this.chassisBody, wheelBody, {\n pivotA: position,\n axisA: axis,\n pivotB: Vec3.ZERO,\n axisB: axis,\n collideConnected: false\n });\n this.constraints.push(hingeConstraint);\n return this.wheelBodies.length - 1;\n }\n /**\n * Set the steering value of a wheel.\n * @todo check coordinateSystem\n */\n\n\n setSteeringValue(value, wheelIndex) {\n // Set angle of the hinge axis\n const axis = this.wheelAxes[wheelIndex];\n const c = Math.cos(value);\n const s = Math.sin(value);\n const x = axis.x;\n const z = axis.z;\n this.constraints[wheelIndex].axisA.set(-c * x + s * z, 0, s * x + c * z);\n }\n /**\n * Set the target rotational speed of the hinge constraint.\n */\n\n\n setMotorSpeed(value, wheelIndex) {\n const hingeConstraint = this.constraints[wheelIndex];\n hingeConstraint.enableMotor();\n hingeConstraint.motorTargetVelocity = value;\n }\n /**\n * Set the target rotational speed of the hinge constraint.\n */\n\n\n disableMotor(wheelIndex) {\n const hingeConstraint = this.constraints[wheelIndex];\n hingeConstraint.disableMotor();\n }\n /**\n * Set the wheel force to apply on one of the wheels each time step\n */\n\n\n setWheelForce(value, wheelIndex) {\n this.wheelForces[wheelIndex] = value;\n }\n /**\n * Apply a torque on one of the wheels.\n */\n\n\n applyWheelForce(value, wheelIndex) {\n const axis = this.wheelAxes[wheelIndex];\n const wheelBody = this.wheelBodies[wheelIndex];\n const bodyTorque = wheelBody.torque;\n axis.scale(value, torque);\n wheelBody.vectorToWorldFrame(torque, torque);\n bodyTorque.vadd(torque, bodyTorque);\n }\n /**\n * Add the vehicle including its constraints to the world.\n */\n\n\n addToWorld(world) {\n const constraints = this.constraints;\n const bodies = this.wheelBodies.concat([this.chassisBody]);\n\n for (let i = 0; i < bodies.length; i++) {\n world.addBody(bodies[i]);\n }\n\n for (let i = 0; i < constraints.length; i++) {\n world.addConstraint(constraints[i]);\n }\n\n world.addEventListener('preStep', this._update.bind(this));\n }\n\n _update() {\n const wheelForces = this.wheelForces;\n\n for (let i = 0; i < wheelForces.length; i++) {\n this.applyWheelForce(wheelForces[i], i);\n }\n }\n /**\n * Remove the vehicle including its constraints from the world.\n */\n\n\n removeFromWorld(world) {\n const constraints = this.constraints;\n const bodies = this.wheelBodies.concat([this.chassisBody]);\n\n for (let i = 0; i < bodies.length; i++) {\n world.removeBody(bodies[i]);\n }\n\n for (let i = 0; i < constraints.length; i++) {\n world.removeConstraint(constraints[i]);\n }\n }\n /**\n * Get current rotational velocity of a wheel\n */\n\n\n getWheelSpeed(wheelIndex) {\n const axis = this.wheelAxes[wheelIndex];\n const wheelBody = this.wheelBodies[wheelIndex];\n const w = wheelBody.angularVelocity;\n this.chassisBody.vectorToWorldFrame(axis, worldAxis);\n return w.dot(worldAxis);\n }\n\n}\nconst torque = new Vec3();\nconst worldAxis = new Vec3();\n\n/**\n * Smoothed-particle hydrodynamics system\n * @todo Make parameters customizable in the constructor\n */\nclass SPHSystem {\n /**\n * The particles array.\n */\n\n /**\n * Density of the system (kg/m3).\n * @default 1\n */\n\n /**\n * Distance below which two particles are considered to be neighbors.\n * It should be adjusted so there are about 15-20 neighbor particles within this radius.\n * @default 1\n */\n\n /**\n * @default 1\n */\n\n /**\n * Viscosity of the system.\n * @default 0.01\n */\n\n /**\n * @default 0.000001\n */\n constructor() {\n this.particles = void 0;\n this.density = void 0;\n this.smoothingRadius = void 0;\n this.speedOfSound = void 0;\n this.viscosity = void 0;\n this.eps = void 0;\n this.pressures = void 0;\n this.densities = void 0;\n this.neighbors = void 0;\n this.particles = [];\n this.density = 1;\n this.smoothingRadius = 1;\n this.speedOfSound = 1;\n this.viscosity = 0.01;\n this.eps = 0.000001; // Stuff Computed per particle\n\n this.pressures = [];\n this.densities = [];\n this.neighbors = [];\n }\n /**\n * Add a particle to the system.\n */\n\n\n add(particle) {\n this.particles.push(particle);\n\n if (this.neighbors.length < this.particles.length) {\n this.neighbors.push([]);\n }\n }\n /**\n * Remove a particle from the system.\n */\n\n\n remove(particle) {\n const idx = this.particles.indexOf(particle);\n\n if (idx !== -1) {\n this.particles.splice(idx, 1);\n\n if (this.neighbors.length > this.particles.length) {\n this.neighbors.pop();\n }\n }\n }\n /**\n * Get neighbors within smoothing volume, save in the array neighbors\n */\n\n\n getNeighbors(particle, neighbors) {\n const N = this.particles.length;\n const id = particle.id;\n const R2 = this.smoothingRadius * this.smoothingRadius;\n const dist = SPHSystem_getNeighbors_dist;\n\n for (let i = 0; i !== N; i++) {\n const p = this.particles[i];\n p.position.vsub(particle.position, dist);\n\n if (id !== p.id && dist.lengthSquared() < R2) {\n neighbors.push(p);\n }\n }\n }\n\n update() {\n const N = this.particles.length;\n const dist = SPHSystem_update_dist;\n const cs = this.speedOfSound;\n const eps = this.eps;\n\n for (let i = 0; i !== N; i++) {\n const p = this.particles[i]; // Current particle\n\n const neighbors = this.neighbors[i]; // Get neighbors\n\n neighbors.length = 0;\n this.getNeighbors(p, neighbors);\n neighbors.push(this.particles[i]); // Add current too\n\n const numNeighbors = neighbors.length; // Accumulate density for the particle\n\n let sum = 0.0;\n\n for (let j = 0; j !== numNeighbors; j++) {\n //printf(\"Current particle has position %f %f %f\\n\",objects[id].pos.x(),objects[id].pos.y(),objects[id].pos.z());\n p.position.vsub(neighbors[j].position, dist);\n const len = dist.length();\n const weight = this.w(len);\n sum += neighbors[j].mass * weight;\n } // Save\n\n\n this.densities[i] = sum;\n this.pressures[i] = cs * cs * (this.densities[i] - this.density);\n } // Add forces\n // Sum to these accelerations\n\n\n const a_pressure = SPHSystem_update_a_pressure;\n const a_visc = SPHSystem_update_a_visc;\n const gradW = SPHSystem_update_gradW;\n const r_vec = SPHSystem_update_r_vec;\n const u = SPHSystem_update_u;\n\n for (let i = 0; i !== N; i++) {\n const particle = this.particles[i];\n a_pressure.set(0, 0, 0);\n a_visc.set(0, 0, 0); // Init vars\n\n let Pij;\n let nabla;\n\n const neighbors = this.neighbors[i];\n const numNeighbors = neighbors.length; //printf(\"Neighbors: \");\n\n for (let j = 0; j !== numNeighbors; j++) {\n const neighbor = neighbors[j]; //printf(\"%d \",nj);\n // Get r once for all..\n\n particle.position.vsub(neighbor.position, r_vec);\n const r = r_vec.length(); // Pressure contribution\n\n Pij = -neighbor.mass * (this.pressures[i] / (this.densities[i] * this.densities[i] + eps) + this.pressures[j] / (this.densities[j] * this.densities[j] + eps));\n this.gradw(r_vec, gradW); // Add to pressure acceleration\n\n gradW.scale(Pij, gradW);\n a_pressure.vadd(gradW, a_pressure); // Viscosity contribution\n\n neighbor.velocity.vsub(particle.velocity, u);\n u.scale(1.0 / (0.0001 + this.densities[i] * this.densities[j]) * this.viscosity * neighbor.mass, u);\n nabla = this.nablaw(r);\n u.scale(nabla, u); // Add to viscosity acceleration\n\n a_visc.vadd(u, a_visc);\n } // Calculate force\n\n\n a_visc.scale(particle.mass, a_visc);\n a_pressure.scale(particle.mass, a_pressure); // Add force to particles\n\n particle.force.vadd(a_visc, particle.force);\n particle.force.vadd(a_pressure, particle.force);\n }\n } // Calculate the weight using the W(r) weightfunction\n\n\n w(r) {\n // 315\n const h = this.smoothingRadius;\n return 315.0 / (64.0 * Math.PI * h ** 9) * (h * h - r * r) ** 3;\n } // calculate gradient of the weight function\n\n\n gradw(rVec, resultVec) {\n const r = rVec.length();\n const h = this.smoothingRadius;\n rVec.scale(945.0 / (32.0 * Math.PI * h ** 9) * (h * h - r * r) ** 2, resultVec);\n } // Calculate nabla(W)\n\n\n nablaw(r) {\n const h = this.smoothingRadius;\n const nabla = 945.0 / (32.0 * Math.PI * h ** 9) * (h * h - r * r) * (7 * r * r - 3 * h * h);\n return nabla;\n }\n\n}\nconst SPHSystem_getNeighbors_dist = new Vec3(); // Temp vectors for calculation\n\nconst SPHSystem_update_dist = new Vec3(); // Relative velocity\n\nconst SPHSystem_update_a_pressure = new Vec3();\nconst SPHSystem_update_a_visc = new Vec3();\nconst SPHSystem_update_gradW = new Vec3();\nconst SPHSystem_update_r_vec = new Vec3();\nconst SPHSystem_update_u = new Vec3();\n\n/**\n * Cylinder class.\n * @example\n * const radiusTop = 0.5\n * const radiusBottom = 0.5\n * const height = 2\n * const numSegments = 12\n * const cylinderShape = new CANNON.Cylinder(radiusTop, radiusBottom, height, numSegments)\n * const cylinderBody = new CANNON.Body({ mass: 1, shape: cylinderShape })\n * world.addBody(cylinderBody)\n */\n\nclass Cylinder extends ConvexPolyhedron {\n /** The radius of the top of the Cylinder. */\n\n /** The radius of the bottom of the Cylinder. */\n\n /** The height of the Cylinder. */\n\n /** The number of segments to build the cylinder out of. */\n\n /**\n * @param radiusTop The radius of the top of the Cylinder.\n * @param radiusBottom The radius of the bottom of the Cylinder.\n * @param height The height of the Cylinder.\n * @param numSegments The number of segments to build the cylinder out of.\n */\n constructor(radiusTop = 1, radiusBottom = 1, height = 1, numSegments = 8) {\n if (radiusTop < 0) {\n throw new Error('The cylinder radiusTop cannot be negative.');\n }\n\n if (radiusBottom < 0) {\n throw new Error('The cylinder radiusBottom cannot be negative.');\n }\n\n const N = numSegments;\n const vertices = [];\n const axes = [];\n const faces = [];\n const bottomface = [];\n const topface = [];\n const cos = Math.cos;\n const sin = Math.sin; // First bottom point\n\n vertices.push(new Vec3(-radiusBottom * sin(0), -height * 0.5, radiusBottom * cos(0)));\n bottomface.push(0); // First top point\n\n vertices.push(new Vec3(-radiusTop * sin(0), height * 0.5, radiusTop * cos(0)));\n topface.push(1);\n\n for (let i = 0; i < N; i++) {\n const theta = 2 * Math.PI / N * (i + 1);\n const thetaN = 2 * Math.PI / N * (i + 0.5);\n\n if (i < N - 1) {\n // Bottom\n vertices.push(new Vec3(-radiusBottom * sin(theta), -height * 0.5, radiusBottom * cos(theta)));\n bottomface.push(2 * i + 2); // Top\n\n vertices.push(new Vec3(-radiusTop * sin(theta), height * 0.5, radiusTop * cos(theta)));\n topface.push(2 * i + 3); // Face\n\n faces.push([2 * i, 2 * i + 1, 2 * i + 3, 2 * i + 2]);\n } else {\n faces.push([2 * i, 2 * i + 1, 1, 0]); // Connect\n } // Axis: we can cut off half of them if we have even number of segments\n\n\n if (N % 2 === 1 || i < N / 2) {\n axes.push(new Vec3(-sin(thetaN), 0, cos(thetaN)));\n }\n }\n\n faces.push(bottomface);\n axes.push(new Vec3(0, 1, 0)); // Reorder top face\n\n const temp = [];\n\n for (let i = 0; i < topface.length; i++) {\n temp.push(topface[topface.length - i - 1]);\n }\n\n faces.push(temp);\n super({\n vertices,\n faces,\n axes\n });\n this.radiusTop = void 0;\n this.radiusBottom = void 0;\n this.height = void 0;\n this.numSegments = void 0;\n this.type = Shape.types.CYLINDER;\n this.radiusTop = radiusTop;\n this.radiusBottom = radiusBottom;\n this.height = height;\n this.numSegments = numSegments;\n }\n\n}\n\n/**\n * Particle shape.\n * @example\n * const particleShape = new CANNON.Particle()\n * const particleBody = new CANNON.Body({ mass: 1, shape: particleShape })\n * world.addBody(particleBody)\n */\nclass Particle extends Shape {\n constructor() {\n super({\n type: Shape.types.PARTICLE\n });\n }\n /**\n * calculateLocalInertia\n */\n\n\n calculateLocalInertia(mass, target = new Vec3()) {\n target.set(0, 0, 0);\n return target;\n }\n\n volume() {\n return 0;\n }\n\n updateBoundingSphereRadius() {\n this.boundingSphereRadius = 0;\n }\n\n calculateWorldAABB(pos, quat, min, max) {\n // Get each axis max\n min.copy(pos);\n max.copy(pos);\n }\n\n}\n\n/**\n * A plane, facing in the Z direction. The plane has its surface at z=0 and everything below z=0 is assumed to be solid plane. To make the plane face in some other direction than z, you must put it inside a Body and rotate that body. See the demos.\n * @example\n * const planeShape = new CANNON.Plane()\n * const planeBody = new CANNON.Body({ mass: 0, shape: planeShape })\n * planeBody.quaternion.setFromEuler(-Math.PI / 2, 0, 0) // make it face up\n * world.addBody(planeBody)\n */\nclass Plane extends Shape {\n /** worldNormal */\n\n /** worldNormalNeedsUpdate */\n constructor() {\n super({\n type: Shape.types.PLANE\n }); // World oriented normal\n\n this.worldNormal = void 0;\n this.worldNormalNeedsUpdate = void 0;\n this.boundingSphereRadius = void 0;\n this.worldNormal = new Vec3();\n this.worldNormalNeedsUpdate = true;\n this.boundingSphereRadius = Number.MAX_VALUE;\n }\n /** computeWorldNormal */\n\n\n computeWorldNormal(quat) {\n const n = this.worldNormal;\n n.set(0, 0, 1);\n quat.vmult(n, n);\n this.worldNormalNeedsUpdate = false;\n }\n\n calculateLocalInertia(mass, target = new Vec3()) {\n return target;\n }\n\n volume() {\n return (// The plane is infinite...\n Number.MAX_VALUE\n );\n }\n\n calculateWorldAABB(pos, quat, min, max) {\n // The plane AABB is infinite, except if the normal is pointing along any axis\n tempNormal.set(0, 0, 1); // Default plane normal is z\n\n quat.vmult(tempNormal, tempNormal);\n const maxVal = Number.MAX_VALUE;\n min.set(-maxVal, -maxVal, -maxVal);\n max.set(maxVal, maxVal, maxVal);\n\n if (tempNormal.x === 1) {\n max.x = pos.x;\n } else if (tempNormal.x === -1) {\n min.x = pos.x;\n }\n\n if (tempNormal.y === 1) {\n max.y = pos.y;\n } else if (tempNormal.y === -1) {\n min.y = pos.y;\n }\n\n if (tempNormal.z === 1) {\n max.z = pos.z;\n } else if (tempNormal.z === -1) {\n min.z = pos.z;\n }\n }\n\n updateBoundingSphereRadius() {\n this.boundingSphereRadius = Number.MAX_VALUE;\n }\n\n}\nconst tempNormal = new Vec3();\n\n/**\n * Heightfield shape class. Height data is given as an array. These data points are spread out evenly with a given distance.\n * @todo Should be possible to use along all axes, not just y\n * @todo should be possible to scale along all axes\n * @todo Refactor elementSize to elementSizeX and elementSizeY\n *\n * @example\n * // Generate some height data (y-values).\n * const data = []\n * for (let i = 0; i < 1000; i++) {\n * const y = 0.5 * Math.cos(0.2 * i)\n * data.push(y)\n * }\n *\n * // Create the heightfield shape\n * const heightfieldShape = new CANNON.Heightfield(data, {\n * elementSize: 1 // Distance between the data points in X and Y directions\n * })\n * const heightfieldBody = new CANNON.Body({ shape: heightfieldShape })\n * world.addBody(heightfieldBody)\n */\nclass Heightfield extends Shape {\n /**\n * An array of numbers, or height values, that are spread out along the x axis.\n */\n\n /**\n * Max value of the data points in the data array.\n */\n\n /**\n * Minimum value of the data points in the data array.\n */\n\n /**\n * World spacing between the data points in X and Y direction.\n * @todo elementSizeX and Y\n * @default 1\n */\n\n /**\n * @default true\n */\n\n /**\n * @param data An array of numbers, or height values, that are spread out along the x axis.\n */\n constructor(data, options = {}) {\n options = Utils.defaults(options, {\n maxValue: null,\n minValue: null,\n elementSize: 1\n });\n super({\n type: Shape.types.HEIGHTFIELD\n });\n this.data = void 0;\n this.maxValue = void 0;\n this.minValue = void 0;\n this.elementSize = void 0;\n this.cacheEnabled = void 0;\n this.pillarConvex = void 0;\n this.pillarOffset = void 0;\n this._cachedPillars = void 0;\n this.data = data;\n this.maxValue = options.maxValue;\n this.minValue = options.minValue;\n this.elementSize = options.elementSize;\n\n if (options.minValue === null) {\n this.updateMinValue();\n }\n\n if (options.maxValue === null) {\n this.updateMaxValue();\n }\n\n this.cacheEnabled = true;\n this.pillarConvex = new ConvexPolyhedron();\n this.pillarOffset = new Vec3();\n this.updateBoundingSphereRadius(); // \"i_j_isUpper\" => { convex: ..., offset: ... }\n // for example:\n // _cachedPillars[\"0_2_1\"]\n\n this._cachedPillars = {};\n }\n /**\n * Call whenever you change the data array.\n */\n\n\n update() {\n this._cachedPillars = {};\n }\n /**\n * Update the `minValue` property\n */\n\n\n updateMinValue() {\n const data = this.data;\n let minValue = data[0][0];\n\n for (let i = 0; i !== data.length; i++) {\n for (let j = 0; j !== data[i].length; j++) {\n const v = data[i][j];\n\n if (v < minValue) {\n minValue = v;\n }\n }\n }\n\n this.minValue = minValue;\n }\n /**\n * Update the `maxValue` property\n */\n\n\n updateMaxValue() {\n const data = this.data;\n let maxValue = data[0][0];\n\n for (let i = 0; i !== data.length; i++) {\n for (let j = 0; j !== data[i].length; j++) {\n const v = data[i][j];\n\n if (v > maxValue) {\n maxValue = v;\n }\n }\n }\n\n this.maxValue = maxValue;\n }\n /**\n * Set the height value at an index. Don't forget to update maxValue and minValue after you're done.\n */\n\n\n setHeightValueAtIndex(xi, yi, value) {\n const data = this.data;\n data[xi][yi] = value; // Invalidate cache\n\n this.clearCachedConvexTrianglePillar(xi, yi, false);\n\n if (xi > 0) {\n this.clearCachedConvexTrianglePillar(xi - 1, yi, true);\n this.clearCachedConvexTrianglePillar(xi - 1, yi, false);\n }\n\n if (yi > 0) {\n this.clearCachedConvexTrianglePillar(xi, yi - 1, true);\n this.clearCachedConvexTrianglePillar(xi, yi - 1, false);\n }\n\n if (yi > 0 && xi > 0) {\n this.clearCachedConvexTrianglePillar(xi - 1, yi - 1, true);\n }\n }\n /**\n * Get max/min in a rectangle in the matrix data\n * @param result An array to store the results in.\n * @return The result array, if it was passed in. Minimum will be at position 0 and max at 1.\n */\n\n\n getRectMinMax(iMinX, iMinY, iMaxX, iMaxY, result = []) {\n // Get max and min of the data\n const data = this.data; // Set first value\n\n let max = this.minValue;\n\n for (let i = iMinX; i <= iMaxX; i++) {\n for (let j = iMinY; j <= iMaxY; j++) {\n const height = data[i][j];\n\n if (height > max) {\n max = height;\n }\n }\n }\n\n result[0] = this.minValue;\n result[1] = max;\n }\n /**\n * Get the index of a local position on the heightfield. The indexes indicate the rectangles, so if your terrain is made of N x N height data points, you will have rectangle indexes ranging from 0 to N-1.\n * @param result Two-element array\n * @param clamp If the position should be clamped to the heightfield edge.\n */\n\n\n getIndexOfPosition(x, y, result, clamp) {\n // Get the index of the data points to test against\n const w = this.elementSize;\n const data = this.data;\n let xi = Math.floor(x / w);\n let yi = Math.floor(y / w);\n result[0] = xi;\n result[1] = yi;\n\n if (clamp) {\n // Clamp index to edges\n if (xi < 0) {\n xi = 0;\n }\n\n if (yi < 0) {\n yi = 0;\n }\n\n if (xi >= data.length - 1) {\n xi = data.length - 1;\n }\n\n if (yi >= data[0].length - 1) {\n yi = data[0].length - 1;\n }\n } // Bail out if we are out of the terrain\n\n\n if (xi < 0 || yi < 0 || xi >= data.length - 1 || yi >= data[0].length - 1) {\n return false;\n }\n\n return true;\n }\n\n getTriangleAt(x, y, edgeClamp, a, b, c) {\n const idx = getHeightAt_idx;\n this.getIndexOfPosition(x, y, idx, edgeClamp);\n let xi = idx[0];\n let yi = idx[1];\n const data = this.data;\n\n if (edgeClamp) {\n xi = Math.min(data.length - 2, Math.max(0, xi));\n yi = Math.min(data[0].length - 2, Math.max(0, yi));\n }\n\n const elementSize = this.elementSize;\n const lowerDist2 = (x / elementSize - xi) ** 2 + (y / elementSize - yi) ** 2;\n const upperDist2 = (x / elementSize - (xi + 1)) ** 2 + (y / elementSize - (yi + 1)) ** 2;\n const upper = lowerDist2 > upperDist2;\n this.getTriangle(xi, yi, upper, a, b, c);\n return upper;\n }\n\n getNormalAt(x, y, edgeClamp, result) {\n const a = getNormalAt_a;\n const b = getNormalAt_b;\n const c = getNormalAt_c;\n const e0 = getNormalAt_e0;\n const e1 = getNormalAt_e1;\n this.getTriangleAt(x, y, edgeClamp, a, b, c);\n b.vsub(a, e0);\n c.vsub(a, e1);\n e0.cross(e1, result);\n result.normalize();\n }\n /**\n * Get an AABB of a square in the heightfield\n * @param xi\n * @param yi\n * @param result\n */\n\n\n getAabbAtIndex(xi, yi, {\n lowerBound,\n upperBound\n }) {\n const data = this.data;\n const elementSize = this.elementSize;\n lowerBound.set(xi * elementSize, yi * elementSize, data[xi][yi]);\n upperBound.set((xi + 1) * elementSize, (yi + 1) * elementSize, data[xi + 1][yi + 1]);\n }\n /**\n * Get the height in the heightfield at a given position\n */\n\n\n getHeightAt(x, y, edgeClamp) {\n const data = this.data;\n const a = getHeightAt_a;\n const b = getHeightAt_b;\n const c = getHeightAt_c;\n const idx = getHeightAt_idx;\n this.getIndexOfPosition(x, y, idx, edgeClamp);\n let xi = idx[0];\n let yi = idx[1];\n\n if (edgeClamp) {\n xi = Math.min(data.length - 2, Math.max(0, xi));\n yi = Math.min(data[0].length - 2, Math.max(0, yi));\n }\n\n const upper = this.getTriangleAt(x, y, edgeClamp, a, b, c);\n barycentricWeights(x, y, a.x, a.y, b.x, b.y, c.x, c.y, getHeightAt_weights);\n const w = getHeightAt_weights;\n\n if (upper) {\n // Top triangle verts\n return data[xi + 1][yi + 1] * w.x + data[xi][yi + 1] * w.y + data[xi + 1][yi] * w.z;\n } else {\n // Top triangle verts\n return data[xi][yi] * w.x + data[xi + 1][yi] * w.y + data[xi][yi + 1] * w.z;\n }\n }\n\n getCacheConvexTrianglePillarKey(xi, yi, getUpperTriangle) {\n return xi + \"_\" + yi + \"_\" + (getUpperTriangle ? 1 : 0);\n }\n\n getCachedConvexTrianglePillar(xi, yi, getUpperTriangle) {\n return this._cachedPillars[this.getCacheConvexTrianglePillarKey(xi, yi, getUpperTriangle)];\n }\n\n setCachedConvexTrianglePillar(xi, yi, getUpperTriangle, convex, offset) {\n this._cachedPillars[this.getCacheConvexTrianglePillarKey(xi, yi, getUpperTriangle)] = {\n convex,\n offset\n };\n }\n\n clearCachedConvexTrianglePillar(xi, yi, getUpperTriangle) {\n delete this._cachedPillars[this.getCacheConvexTrianglePillarKey(xi, yi, getUpperTriangle)];\n }\n /**\n * Get a triangle from the heightfield\n */\n\n\n getTriangle(xi, yi, upper, a, b, c) {\n const data = this.data;\n const elementSize = this.elementSize;\n\n if (upper) {\n // Top triangle verts\n a.set((xi + 1) * elementSize, (yi + 1) * elementSize, data[xi + 1][yi + 1]);\n b.set(xi * elementSize, (yi + 1) * elementSize, data[xi][yi + 1]);\n c.set((xi + 1) * elementSize, yi * elementSize, data[xi + 1][yi]);\n } else {\n // Top triangle verts\n a.set(xi * elementSize, yi * elementSize, data[xi][yi]);\n b.set((xi + 1) * elementSize, yi * elementSize, data[xi + 1][yi]);\n c.set(xi * elementSize, (yi + 1) * elementSize, data[xi][yi + 1]);\n }\n }\n /**\n * Get a triangle in the terrain in the form of a triangular convex shape.\n */\n\n\n getConvexTrianglePillar(xi, yi, getUpperTriangle) {\n let result = this.pillarConvex;\n let offsetResult = this.pillarOffset;\n\n if (this.cacheEnabled) {\n const data = this.getCachedConvexTrianglePillar(xi, yi, getUpperTriangle);\n\n if (data) {\n this.pillarConvex = data.convex;\n this.pillarOffset = data.offset;\n return;\n }\n\n result = new ConvexPolyhedron();\n offsetResult = new Vec3();\n this.pillarConvex = result;\n this.pillarOffset = offsetResult;\n }\n\n const data = this.data;\n const elementSize = this.elementSize;\n const faces = result.faces; // Reuse verts if possible\n\n result.vertices.length = 6;\n\n for (let i = 0; i < 6; i++) {\n if (!result.vertices[i]) {\n result.vertices[i] = new Vec3();\n }\n } // Reuse faces if possible\n\n\n faces.length = 5;\n\n for (let i = 0; i < 5; i++) {\n if (!faces[i]) {\n faces[i] = [];\n }\n }\n\n const verts = result.vertices;\n const h = (Math.min(data[xi][yi], data[xi + 1][yi], data[xi][yi + 1], data[xi + 1][yi + 1]) - this.minValue) / 2 + this.minValue;\n\n if (!getUpperTriangle) {\n // Center of the triangle pillar - all polygons are given relative to this one\n offsetResult.set((xi + 0.25) * elementSize, // sort of center of a triangle\n (yi + 0.25) * elementSize, h // vertical center\n ); // Top triangle verts\n\n verts[0].set(-0.25 * elementSize, -0.25 * elementSize, data[xi][yi] - h);\n verts[1].set(0.75 * elementSize, -0.25 * elementSize, data[xi + 1][yi] - h);\n verts[2].set(-0.25 * elementSize, 0.75 * elementSize, data[xi][yi + 1] - h); // bottom triangle verts\n\n verts[3].set(-0.25 * elementSize, -0.25 * elementSize, -Math.abs(h) - 1);\n verts[4].set(0.75 * elementSize, -0.25 * elementSize, -Math.abs(h) - 1);\n verts[5].set(-0.25 * elementSize, 0.75 * elementSize, -Math.abs(h) - 1); // top triangle\n\n faces[0][0] = 0;\n faces[0][1] = 1;\n faces[0][2] = 2; // bottom triangle\n\n faces[1][0] = 5;\n faces[1][1] = 4;\n faces[1][2] = 3; // -x facing quad\n\n faces[2][0] = 0;\n faces[2][1] = 2;\n faces[2][2] = 5;\n faces[2][3] = 3; // -y facing quad\n\n faces[3][0] = 1;\n faces[3][1] = 0;\n faces[3][2] = 3;\n faces[3][3] = 4; // +xy facing quad\n\n faces[4][0] = 4;\n faces[4][1] = 5;\n faces[4][2] = 2;\n faces[4][3] = 1;\n } else {\n // Center of the triangle pillar - all polygons are given relative to this one\n offsetResult.set((xi + 0.75) * elementSize, // sort of center of a triangle\n (yi + 0.75) * elementSize, h // vertical center\n ); // Top triangle verts\n\n verts[0].set(0.25 * elementSize, 0.25 * elementSize, data[xi + 1][yi + 1] - h);\n verts[1].set(-0.75 * elementSize, 0.25 * elementSize, data[xi][yi + 1] - h);\n verts[2].set(0.25 * elementSize, -0.75 * elementSize, data[xi + 1][yi] - h); // bottom triangle verts\n\n verts[3].set(0.25 * elementSize, 0.25 * elementSize, -Math.abs(h) - 1);\n verts[4].set(-0.75 * elementSize, 0.25 * elementSize, -Math.abs(h) - 1);\n verts[5].set(0.25 * elementSize, -0.75 * elementSize, -Math.abs(h) - 1); // Top triangle\n\n faces[0][0] = 0;\n faces[0][1] = 1;\n faces[0][2] = 2; // bottom triangle\n\n faces[1][0] = 5;\n faces[1][1] = 4;\n faces[1][2] = 3; // +x facing quad\n\n faces[2][0] = 2;\n faces[2][1] = 5;\n faces[2][2] = 3;\n faces[2][3] = 0; // +y facing quad\n\n faces[3][0] = 3;\n faces[3][1] = 4;\n faces[3][2] = 1;\n faces[3][3] = 0; // -xy facing quad\n\n faces[4][0] = 1;\n faces[4][1] = 4;\n faces[4][2] = 5;\n faces[4][3] = 2;\n }\n\n result.computeNormals();\n result.computeEdges();\n result.updateBoundingSphereRadius();\n this.setCachedConvexTrianglePillar(xi, yi, getUpperTriangle, result, offsetResult);\n }\n\n calculateLocalInertia(mass, target = new Vec3()) {\n target.set(0, 0, 0);\n return target;\n }\n\n volume() {\n return (// The terrain is infinite\n Number.MAX_VALUE\n );\n }\n\n calculateWorldAABB(pos, quat, min, max) {\n /** @TODO do it properly */\n min.set(-Number.MAX_VALUE, -Number.MAX_VALUE, -Number.MAX_VALUE);\n max.set(Number.MAX_VALUE, Number.MAX_VALUE, Number.MAX_VALUE);\n }\n\n updateBoundingSphereRadius() {\n // Use the bounding box of the min/max values\n const data = this.data;\n const s = this.elementSize;\n this.boundingSphereRadius = new Vec3(data.length * s, data[0].length * s, Math.max(Math.abs(this.maxValue), Math.abs(this.minValue))).length();\n }\n /**\n * Sets the height values from an image. Currently only supported in browser.\n */\n\n\n setHeightsFromImage(image, scale) {\n const {\n x,\n z,\n y\n } = scale;\n const canvas = document.createElement('canvas');\n canvas.width = image.width;\n canvas.height = image.height;\n const context = canvas.getContext('2d');\n context.drawImage(image, 0, 0);\n const imageData = context.getImageData(0, 0, image.width, image.height);\n const matrix = this.data;\n matrix.length = 0;\n this.elementSize = Math.abs(x) / imageData.width;\n\n for (let i = 0; i < imageData.height; i++) {\n const row = [];\n\n for (let j = 0; j < imageData.width; j++) {\n const a = imageData.data[(i * imageData.height + j) * 4];\n const b = imageData.data[(i * imageData.height + j) * 4 + 1];\n const c = imageData.data[(i * imageData.height + j) * 4 + 2];\n const height = (a + b + c) / 4 / 255 * z;\n\n if (x < 0) {\n row.push(height);\n } else {\n row.unshift(height);\n }\n }\n\n if (y < 0) {\n matrix.unshift(row);\n } else {\n matrix.push(row);\n }\n }\n\n this.updateMaxValue();\n this.updateMinValue();\n this.update();\n }\n\n}\nconst getHeightAt_idx = [];\nconst getHeightAt_weights = new Vec3();\nconst getHeightAt_a = new Vec3();\nconst getHeightAt_b = new Vec3();\nconst getHeightAt_c = new Vec3();\nconst getNormalAt_a = new Vec3();\nconst getNormalAt_b = new Vec3();\nconst getNormalAt_c = new Vec3();\nconst getNormalAt_e0 = new Vec3();\nconst getNormalAt_e1 = new Vec3(); // from https://en.wikipedia.org/wiki/Barycentric_coordinate_system\n\nfunction barycentricWeights(x, y, ax, ay, bx, by, cx, cy, result) {\n result.x = ((by - cy) * (x - cx) + (cx - bx) * (y - cy)) / ((by - cy) * (ax - cx) + (cx - bx) * (ay - cy));\n result.y = ((cy - ay) * (x - cx) + (ax - cx) * (y - cy)) / ((by - cy) * (ax - cx) + (cx - bx) * (ay - cy));\n result.z = 1 - result.x - result.y;\n}\n\n/**\n * OctreeNode\n */\nclass OctreeNode {\n /** The root node */\n\n /** Boundary of this node */\n\n /** Contained data at the current node level */\n\n /** Children to this node */\n constructor(options = {}) {\n this.root = void 0;\n this.aabb = void 0;\n this.data = void 0;\n this.children = void 0;\n this.root = options.root || null;\n this.aabb = options.aabb ? options.aabb.clone() : new AABB();\n this.data = [];\n this.children = [];\n }\n /**\n * reset\n */\n\n\n reset() {\n this.children.length = this.data.length = 0;\n }\n /**\n * Insert data into this node\n * @return True if successful, otherwise false\n */\n\n\n insert(aabb, elementData, level = 0) {\n const nodeData = this.data; // Ignore objects that do not belong in this node\n\n if (!this.aabb.contains(aabb)) {\n return false; // object cannot be added\n }\n\n const children = this.children;\n const maxDepth = this.maxDepth || this.root.maxDepth;\n\n if (level < maxDepth) {\n // Subdivide if there are no children yet\n let subdivided = false;\n\n if (!children.length) {\n this.subdivide();\n subdivided = true;\n } // add to whichever node will accept it\n\n\n for (let i = 0; i !== 8; i++) {\n if (children[i].insert(aabb, elementData, level + 1)) {\n return true;\n }\n }\n\n if (subdivided) {\n // No children accepted! Might as well just remove em since they contain none\n children.length = 0;\n }\n } // Too deep, or children didnt want it. add it in current node\n\n\n nodeData.push(elementData);\n return true;\n }\n /**\n * Create 8 equally sized children nodes and put them in the `children` array.\n */\n\n\n subdivide() {\n const aabb = this.aabb;\n const l = aabb.lowerBound;\n const u = aabb.upperBound;\n const children = this.children;\n children.push(new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(0, 0, 0)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(1, 0, 0)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(1, 1, 0)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(1, 1, 1)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(0, 1, 1)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(0, 0, 1)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(1, 0, 1)\n })\n }), new OctreeNode({\n aabb: new AABB({\n lowerBound: new Vec3(0, 1, 0)\n })\n }));\n u.vsub(l, halfDiagonal);\n halfDiagonal.scale(0.5, halfDiagonal);\n const root = this.root || this;\n\n for (let i = 0; i !== 8; i++) {\n const child = children[i]; // Set current node as root\n\n child.root = root; // Compute bounds\n\n const lowerBound = child.aabb.lowerBound;\n lowerBound.x *= halfDiagonal.x;\n lowerBound.y *= halfDiagonal.y;\n lowerBound.z *= halfDiagonal.z;\n lowerBound.vadd(l, lowerBound); // Upper bound is always lower bound + halfDiagonal\n\n lowerBound.vadd(halfDiagonal, child.aabb.upperBound);\n }\n }\n /**\n * Get all data, potentially within an AABB\n * @return The \"result\" object\n */\n\n\n aabbQuery(aabb, result) {\n this.data; // abort if the range does not intersect this node\n // if (!this.aabb.overlaps(aabb)){\n // return result;\n // }\n // Add objects at this level\n // Array.prototype.push.apply(result, nodeData);\n // Add child data\n // @todo unwrap recursion into a queue / loop, that's faster in JS\n\n this.children; // for (let i = 0, N = this.children.length; i !== N; i++) {\n // children[i].aabbQuery(aabb, result);\n // }\n\n const queue = [this];\n\n while (queue.length) {\n const node = queue.pop();\n\n if (node.aabb.overlaps(aabb)) {\n Array.prototype.push.apply(result, node.data);\n }\n\n Array.prototype.push.apply(queue, node.children);\n }\n\n return result;\n }\n /**\n * Get all data, potentially intersected by a ray.\n * @return The \"result\" object\n */\n\n\n rayQuery(ray, treeTransform, result) {\n // Use aabb query for now.\n\n /** @todo implement real ray query which needs less lookups */\n ray.getAABB(tmpAABB);\n tmpAABB.toLocalFrame(treeTransform, tmpAABB);\n this.aabbQuery(tmpAABB, result);\n return result;\n }\n /**\n * removeEmptyNodes\n */\n\n\n removeEmptyNodes() {\n for (let i = this.children.length - 1; i >= 0; i--) {\n this.children[i].removeEmptyNodes();\n\n if (!this.children[i].children.length && !this.children[i].data.length) {\n this.children.splice(i, 1);\n }\n }\n }\n\n}\n/**\n * Octree\n */\n\n\nclass Octree extends OctreeNode {\n /**\n * Maximum subdivision depth\n * @default 8\n */\n\n /**\n * @param aabb The total AABB of the tree\n */\n constructor(aabb, options = {}) {\n super({\n root: null,\n aabb\n });\n this.maxDepth = void 0;\n this.maxDepth = typeof options.maxDepth !== 'undefined' ? options.maxDepth : 8;\n }\n\n}\nconst halfDiagonal = new Vec3();\nconst tmpAABB = new AABB();\n\n/**\n * Trimesh.\n * @example\n * // How to make a mesh with a single triangle\n * const vertices = [\n * 0, 0, 0, // vertex 0\n * 1, 0, 0, // vertex 1\n * 0, 1, 0 // vertex 2\n * ]\n * const indices = [\n * 0, 1, 2 // triangle 0\n * ]\n * const trimeshShape = new CANNON.Trimesh(vertices, indices)\n */\nclass Trimesh extends Shape {\n /**\n * vertices\n */\n\n /**\n * Array of integers, indicating which vertices each triangle consists of. The length of this array is thus 3 times the number of triangles.\n */\n\n /**\n * The normals data.\n */\n\n /**\n * The local AABB of the mesh.\n */\n\n /**\n * References to vertex pairs, making up all unique edges in the trimesh.\n */\n\n /**\n * Local scaling of the mesh. Use .setScale() to set it.\n */\n\n /**\n * The indexed triangles. Use .updateTree() to update it.\n */\n constructor(vertices, indices) {\n super({\n type: Shape.types.TRIMESH\n });\n this.vertices = void 0;\n this.indices = void 0;\n this.normals = void 0;\n this.aabb = void 0;\n this.edges = void 0;\n this.scale = void 0;\n this.tree = void 0;\n this.vertices = new Float32Array(vertices);\n this.indices = new Int16Array(indices);\n this.normals = new Float32Array(indices.length);\n this.aabb = new AABB();\n this.edges = null;\n this.scale = new Vec3(1, 1, 1);\n this.tree = new Octree();\n this.updateEdges();\n this.updateNormals();\n this.updateAABB();\n this.updateBoundingSphereRadius();\n this.updateTree();\n }\n /**\n * updateTree\n */\n\n\n updateTree() {\n const tree = this.tree;\n tree.reset();\n tree.aabb.copy(this.aabb);\n const scale = this.scale; // The local mesh AABB is scaled, but the octree AABB should be unscaled\n\n tree.aabb.lowerBound.x *= 1 / scale.x;\n tree.aabb.lowerBound.y *= 1 / scale.y;\n tree.aabb.lowerBound.z *= 1 / scale.z;\n tree.aabb.upperBound.x *= 1 / scale.x;\n tree.aabb.upperBound.y *= 1 / scale.y;\n tree.aabb.upperBound.z *= 1 / scale.z; // Insert all triangles\n\n const triangleAABB = new AABB();\n const a = new Vec3();\n const b = new Vec3();\n const c = new Vec3();\n const points = [a, b, c];\n\n for (let i = 0; i < this.indices.length / 3; i++) {\n //this.getTriangleVertices(i, a, b, c);\n // Get unscaled triangle verts\n const i3 = i * 3;\n\n this._getUnscaledVertex(this.indices[i3], a);\n\n this._getUnscaledVertex(this.indices[i3 + 1], b);\n\n this._getUnscaledVertex(this.indices[i3 + 2], c);\n\n triangleAABB.setFromPoints(points);\n tree.insert(triangleAABB, i);\n }\n\n tree.removeEmptyNodes();\n }\n /**\n * Get triangles in a local AABB from the trimesh.\n * @param result An array of integers, referencing the queried triangles.\n */\n\n\n getTrianglesInAABB(aabb, result) {\n unscaledAABB.copy(aabb); // Scale it to local\n\n const scale = this.scale;\n const isx = scale.x;\n const isy = scale.y;\n const isz = scale.z;\n const l = unscaledAABB.lowerBound;\n const u = unscaledAABB.upperBound;\n l.x /= isx;\n l.y /= isy;\n l.z /= isz;\n u.x /= isx;\n u.y /= isy;\n u.z /= isz;\n return this.tree.aabbQuery(unscaledAABB, result);\n }\n /**\n * setScale\n */\n\n\n setScale(scale) {\n const wasUniform = this.scale.x === this.scale.y && this.scale.y === this.scale.z;\n const isUniform = scale.x === scale.y && scale.y === scale.z;\n\n if (!(wasUniform && isUniform)) {\n // Non-uniform scaling. Need to update normals.\n this.updateNormals();\n }\n\n this.scale.copy(scale);\n this.updateAABB();\n this.updateBoundingSphereRadius();\n }\n /**\n * Compute the normals of the faces. Will save in the `.normals` array.\n */\n\n\n updateNormals() {\n const n = computeNormals_n; // Generate normals\n\n const normals = this.normals;\n\n for (let i = 0; i < this.indices.length / 3; i++) {\n const i3 = i * 3;\n const a = this.indices[i3];\n const b = this.indices[i3 + 1];\n const c = this.indices[i3 + 2];\n this.getVertex(a, va);\n this.getVertex(b, vb);\n this.getVertex(c, vc);\n Trimesh.computeNormal(vb, va, vc, n);\n normals[i3] = n.x;\n normals[i3 + 1] = n.y;\n normals[i3 + 2] = n.z;\n }\n }\n /**\n * Update the `.edges` property\n */\n\n\n updateEdges() {\n const edges = {};\n\n const add = (a, b) => {\n const key = a < b ? a + \"_\" + b : b + \"_\" + a;\n edges[key] = true;\n };\n\n for (let i = 0; i < this.indices.length / 3; i++) {\n const i3 = i * 3;\n const a = this.indices[i3];\n const b = this.indices[i3 + 1];\n const c = this.indices[i3 + 2];\n add(a, b);\n add(b, c);\n add(c, a);\n }\n\n const keys = Object.keys(edges);\n this.edges = new Int16Array(keys.length * 2);\n\n for (let i = 0; i < keys.length; i++) {\n const indices = keys[i].split('_');\n this.edges[2 * i] = parseInt(indices[0], 10);\n this.edges[2 * i + 1] = parseInt(indices[1], 10);\n }\n }\n /**\n * Get an edge vertex\n * @param firstOrSecond 0 or 1, depending on which one of the vertices you need.\n * @param vertexStore Where to store the result\n */\n\n\n getEdgeVertex(edgeIndex, firstOrSecond, vertexStore) {\n const vertexIndex = this.edges[edgeIndex * 2 + (firstOrSecond ? 1 : 0)];\n this.getVertex(vertexIndex, vertexStore);\n }\n /**\n * Get a vector along an edge.\n */\n\n\n getEdgeVector(edgeIndex, vectorStore) {\n const va = getEdgeVector_va;\n const vb = getEdgeVector_vb;\n this.getEdgeVertex(edgeIndex, 0, va);\n this.getEdgeVertex(edgeIndex, 1, vb);\n vb.vsub(va, vectorStore);\n }\n /**\n * Get face normal given 3 vertices\n */\n\n\n static computeNormal(va, vb, vc, target) {\n vb.vsub(va, ab);\n vc.vsub(vb, cb);\n cb.cross(ab, target);\n\n if (!target.isZero()) {\n target.normalize();\n }\n }\n /**\n * Get vertex i.\n * @return The \"out\" vector object\n */\n\n\n getVertex(i, out) {\n const scale = this.scale;\n\n this._getUnscaledVertex(i, out);\n\n out.x *= scale.x;\n out.y *= scale.y;\n out.z *= scale.z;\n return out;\n }\n /**\n * Get raw vertex i\n * @return The \"out\" vector object\n */\n\n\n _getUnscaledVertex(i, out) {\n const i3 = i * 3;\n const vertices = this.vertices;\n return out.set(vertices[i3], vertices[i3 + 1], vertices[i3 + 2]);\n }\n /**\n * Get a vertex from the trimesh,transformed by the given position and quaternion.\n * @return The \"out\" vector object\n */\n\n\n getWorldVertex(i, pos, quat, out) {\n this.getVertex(i, out);\n Transform.pointToWorldFrame(pos, quat, out, out);\n return out;\n }\n /**\n * Get the three vertices for triangle i.\n */\n\n\n getTriangleVertices(i, a, b, c) {\n const i3 = i * 3;\n this.getVertex(this.indices[i3], a);\n this.getVertex(this.indices[i3 + 1], b);\n this.getVertex(this.indices[i3 + 2], c);\n }\n /**\n * Compute the normal of triangle i.\n * @return The \"target\" vector object\n */\n\n\n getNormal(i, target) {\n const i3 = i * 3;\n return target.set(this.normals[i3], this.normals[i3 + 1], this.normals[i3 + 2]);\n }\n /**\n * @return The \"target\" vector object\n */\n\n\n calculateLocalInertia(mass, target) {\n // Approximate with box inertia\n // Exact inertia calculation is overkill, but see http://geometrictools.com/Documentation/PolyhedralMassProperties.pdf for the correct way to do it\n this.computeLocalAABB(cli_aabb);\n const x = cli_aabb.upperBound.x - cli_aabb.lowerBound.x;\n const y = cli_aabb.upperBound.y - cli_aabb.lowerBound.y;\n const z = cli_aabb.upperBound.z - cli_aabb.lowerBound.z;\n return target.set(1.0 / 12.0 * mass * (2 * y * 2 * y + 2 * z * 2 * z), 1.0 / 12.0 * mass * (2 * x * 2 * x + 2 * z * 2 * z), 1.0 / 12.0 * mass * (2 * y * 2 * y + 2 * x * 2 * x));\n }\n /**\n * Compute the local AABB for the trimesh\n */\n\n\n computeLocalAABB(aabb) {\n const l = aabb.lowerBound;\n const u = aabb.upperBound;\n const n = this.vertices.length;\n this.vertices;\n const v = computeLocalAABB_worldVert;\n this.getVertex(0, v);\n l.copy(v);\n u.copy(v);\n\n for (let i = 0; i !== n; i++) {\n this.getVertex(i, v);\n\n if (v.x < l.x) {\n l.x = v.x;\n } else if (v.x > u.x) {\n u.x = v.x;\n }\n\n if (v.y < l.y) {\n l.y = v.y;\n } else if (v.y > u.y) {\n u.y = v.y;\n }\n\n if (v.z < l.z) {\n l.z = v.z;\n } else if (v.z > u.z) {\n u.z = v.z;\n }\n }\n }\n /**\n * Update the `.aabb` property\n */\n\n\n updateAABB() {\n this.computeLocalAABB(this.aabb);\n }\n /**\n * Will update the `.boundingSphereRadius` property\n */\n\n\n updateBoundingSphereRadius() {\n // Assume points are distributed with local (0,0,0) as center\n let max2 = 0;\n const vertices = this.vertices;\n const v = new Vec3();\n\n for (let i = 0, N = vertices.length / 3; i !== N; i++) {\n this.getVertex(i, v);\n const norm2 = v.lengthSquared();\n\n if (norm2 > max2) {\n max2 = norm2;\n }\n }\n\n this.boundingSphereRadius = Math.sqrt(max2);\n }\n /**\n * calculateWorldAABB\n */\n\n\n calculateWorldAABB(pos, quat, min, max) {\n /*\n const n = this.vertices.length / 3,\n verts = this.vertices;\n const minx,miny,minz,maxx,maxy,maxz;\n const v = tempWorldVertex;\n for(let i=0; i<n; i++){\n this.getVertex(i, v);\n quat.vmult(v, v);\n pos.vadd(v, v);\n if (v.x < minx || minx===undefined){\n minx = v.x;\n } else if(v.x > maxx || maxx===undefined){\n maxx = v.x;\n }\n if (v.y < miny || miny===undefined){\n miny = v.y;\n } else if(v.y > maxy || maxy===undefined){\n maxy = v.y;\n }\n if (v.z < minz || minz===undefined){\n minz = v.z;\n } else if(v.z > maxz || maxz===undefined){\n maxz = v.z;\n }\n }\n min.set(minx,miny,minz);\n max.set(maxx,maxy,maxz);\n */\n // Faster approximation using local AABB\n const frame = calculateWorldAABB_frame;\n const result = calculateWorldAABB_aabb;\n frame.position = pos;\n frame.quaternion = quat;\n this.aabb.toWorldFrame(frame, result);\n min.copy(result.lowerBound);\n max.copy(result.upperBound);\n }\n /**\n * Get approximate volume\n */\n\n\n volume() {\n return 4.0 * Math.PI * this.boundingSphereRadius / 3.0;\n }\n /**\n * Create a Trimesh instance, shaped as a torus.\n */\n\n\n static createTorus(radius = 1, tube = 0.5, radialSegments = 8, tubularSegments = 6, arc = Math.PI * 2) {\n const vertices = [];\n const indices = [];\n\n for (let j = 0; j <= radialSegments; j++) {\n for (let i = 0; i <= tubularSegments; i++) {\n const u = i / tubularSegments * arc;\n const v = j / radialSegments * Math.PI * 2;\n const x = (radius + tube * Math.cos(v)) * Math.cos(u);\n const y = (radius + tube * Math.cos(v)) * Math.sin(u);\n const z = tube * Math.sin(v);\n vertices.push(x, y, z);\n }\n }\n\n for (let j = 1; j <= radialSegments; j++) {\n for (let i = 1; i <= tubularSegments; i++) {\n const a = (tubularSegments + 1) * j + i - 1;\n const b = (tubularSegments + 1) * (j - 1) + i - 1;\n const c = (tubularSegments + 1) * (j - 1) + i;\n const d = (tubularSegments + 1) * j + i;\n indices.push(a, b, d);\n indices.push(b, c, d);\n }\n }\n\n return new Trimesh(vertices, indices);\n }\n\n}\nconst computeNormals_n = new Vec3();\nconst unscaledAABB = new AABB();\nconst getEdgeVector_va = new Vec3();\nconst getEdgeVector_vb = new Vec3();\nconst cb = new Vec3();\nconst ab = new Vec3();\nconst va = new Vec3();\nconst vb = new Vec3();\nconst vc = new Vec3();\nconst cli_aabb = new AABB();\nconst computeLocalAABB_worldVert = new Vec3();\nconst calculateWorldAABB_frame = new Transform();\nconst calculateWorldAABB_aabb = new AABB();\n\n/**\n * Constraint equation solver base class.\n */\nclass Solver {\n /**\n * All equations to be solved\n */\n\n /**\n * @todo remove useless constructor\n */\n constructor() {\n this.equations = void 0;\n this.equations = [];\n }\n /**\n * Should be implemented in subclasses!\n * @todo use abstract\n * @return number of iterations performed\n */\n\n\n solve(dt, world) {\n return (// Should return the number of iterations done!\n 0\n );\n }\n /**\n * Add an equation\n */\n\n\n addEquation(eq) {\n if (eq.enabled && !eq.bi.isTrigger && !eq.bj.isTrigger) {\n this.equations.push(eq);\n }\n }\n /**\n * Remove an equation\n */\n\n\n removeEquation(eq) {\n const eqs = this.equations;\n const i = eqs.indexOf(eq);\n\n if (i !== -1) {\n eqs.splice(i, 1);\n }\n }\n /**\n * Add all equations\n */\n\n\n removeAllEquations() {\n this.equations.length = 0;\n }\n\n}\n\n/**\n * Constraint equation Gauss-Seidel solver.\n * @todo The spook parameters should be specified for each constraint, not globally.\n * @see https://www8.cs.umu.se/kurser/5DV058/VT09/lectures/spooknotes.pdf\n */\nclass GSSolver extends Solver {\n /**\n * The number of solver iterations determines quality of the constraints in the world.\n * The more iterations, the more correct simulation. More iterations need more computations though. If you have a large gravity force in your world, you will need more iterations.\n */\n\n /**\n * When tolerance is reached, the system is assumed to be converged.\n */\n\n /**\n * @todo remove useless constructor\n */\n constructor() {\n super();\n this.iterations = void 0;\n this.tolerance = void 0;\n this.iterations = 10;\n this.tolerance = 1e-7;\n }\n /**\n * Solve\n * @return number of iterations performed\n */\n\n\n solve(dt, world) {\n let iter = 0;\n const maxIter = this.iterations;\n const tolSquared = this.tolerance * this.tolerance;\n const equations = this.equations;\n const Neq = equations.length;\n const bodies = world.bodies;\n const Nbodies = bodies.length;\n const h = dt;\n let B;\n let invC;\n let deltalambda;\n let deltalambdaTot;\n let GWlambda;\n let lambdaj; // Update solve mass\n\n if (Neq !== 0) {\n for (let i = 0; i !== Nbodies; i++) {\n bodies[i].updateSolveMassProperties();\n }\n } // Things that do not change during iteration can be computed once\n\n\n const invCs = GSSolver_solve_invCs;\n const Bs = GSSolver_solve_Bs;\n const lambda = GSSolver_solve_lambda;\n invCs.length = Neq;\n Bs.length = Neq;\n lambda.length = Neq;\n\n for (let i = 0; i !== Neq; i++) {\n const c = equations[i];\n lambda[i] = 0.0;\n Bs[i] = c.computeB(h);\n invCs[i] = 1.0 / c.computeC();\n }\n\n if (Neq !== 0) {\n // Reset vlambda\n for (let i = 0; i !== Nbodies; i++) {\n const b = bodies[i];\n const vlambda = b.vlambda;\n const wlambda = b.wlambda;\n vlambda.set(0, 0, 0);\n wlambda.set(0, 0, 0);\n } // Iterate over equations\n\n\n for (iter = 0; iter !== maxIter; iter++) {\n // Accumulate the total error for each iteration.\n deltalambdaTot = 0.0;\n\n for (let j = 0; j !== Neq; j++) {\n const c = equations[j]; // Compute iteration\n\n B = Bs[j];\n invC = invCs[j];\n lambdaj = lambda[j];\n GWlambda = c.computeGWlambda();\n deltalambda = invC * (B - GWlambda - c.eps * lambdaj); // Clamp if we are not within the min/max interval\n\n if (lambdaj + deltalambda < c.minForce) {\n deltalambda = c.minForce - lambdaj;\n } else if (lambdaj + deltalambda > c.maxForce) {\n deltalambda = c.maxForce - lambdaj;\n }\n\n lambda[j] += deltalambda;\n deltalambdaTot += deltalambda > 0.0 ? deltalambda : -deltalambda; // abs(deltalambda)\n\n c.addToWlambda(deltalambda);\n } // If the total error is small enough - stop iterate\n\n\n if (deltalambdaTot * deltalambdaTot < tolSquared) {\n break;\n }\n } // Add result to velocity\n\n\n for (let i = 0; i !== Nbodies; i++) {\n const b = bodies[i];\n const v = b.velocity;\n const w = b.angularVelocity;\n b.vlambda.vmul(b.linearFactor, b.vlambda);\n v.vadd(b.vlambda, v);\n b.wlambda.vmul(b.angularFactor, b.wlambda);\n w.vadd(b.wlambda, w);\n } // Set the `.multiplier` property of each equation\n\n\n let l = equations.length;\n const invDt = 1 / h;\n\n while (l--) {\n equations[l].multiplier = lambda[l] * invDt;\n }\n }\n\n return iter;\n }\n\n} // Just temporary number holders that we want to reuse each iteration.\n\nconst GSSolver_solve_lambda = [];\nconst GSSolver_solve_invCs = [];\nconst GSSolver_solve_Bs = [];\n\n/**\n * Splits the equations into islands and solves them independently. Can improve performance.\n */\nclass SplitSolver extends Solver {\n /**\n * The number of solver iterations determines quality of the constraints in the world. The more iterations, the more correct simulation. More iterations need more computations though. If you have a large gravity force in your world, you will need more iterations.\n */\n\n /**\n * When tolerance is reached, the system is assumed to be converged.\n */\n\n /** subsolver */\n constructor(subsolver) {\n super();\n this.iterations = void 0;\n this.tolerance = void 0;\n this.subsolver = void 0;\n this.nodes = void 0;\n this.nodePool = void 0;\n this.iterations = 10;\n this.tolerance = 1e-7;\n this.subsolver = subsolver;\n this.nodes = [];\n this.nodePool = []; // Create needed nodes, reuse if possible\n\n while (this.nodePool.length < 128) {\n this.nodePool.push(this.createNode());\n }\n }\n /**\n * createNode\n */\n\n\n createNode() {\n return {\n body: null,\n children: [],\n eqs: [],\n visited: false\n };\n }\n /**\n * Solve the subsystems\n * @return number of iterations performed\n */\n\n\n solve(dt, world) {\n const nodes = SplitSolver_solve_nodes;\n const nodePool = this.nodePool;\n const bodies = world.bodies;\n const equations = this.equations;\n const Neq = equations.length;\n const Nbodies = bodies.length;\n const subsolver = this.subsolver; // Create needed nodes, reuse if possible\n\n while (nodePool.length < Nbodies) {\n nodePool.push(this.createNode());\n }\n\n nodes.length = Nbodies;\n\n for (let i = 0; i < Nbodies; i++) {\n nodes[i] = nodePool[i];\n } // Reset node values\n\n\n for (let i = 0; i !== Nbodies; i++) {\n const node = nodes[i];\n node.body = bodies[i];\n node.children.length = 0;\n node.eqs.length = 0;\n node.visited = false;\n }\n\n for (let k = 0; k !== Neq; k++) {\n const eq = equations[k];\n const i = bodies.indexOf(eq.bi);\n const j = bodies.indexOf(eq.bj);\n const ni = nodes[i];\n const nj = nodes[j];\n ni.children.push(nj);\n ni.eqs.push(eq);\n nj.children.push(ni);\n nj.eqs.push(eq);\n }\n\n let child;\n let n = 0;\n let eqs = SplitSolver_solve_eqs;\n subsolver.tolerance = this.tolerance;\n subsolver.iterations = this.iterations;\n const dummyWorld = SplitSolver_solve_dummyWorld;\n\n while (child = getUnvisitedNode(nodes)) {\n eqs.length = 0;\n dummyWorld.bodies.length = 0;\n bfs(child, visitFunc, dummyWorld.bodies, eqs);\n const Neqs = eqs.length;\n eqs = eqs.sort(sortById);\n\n for (let i = 0; i !== Neqs; i++) {\n subsolver.addEquation(eqs[i]);\n }\n\n subsolver.solve(dt, dummyWorld);\n subsolver.removeAllEquations();\n n++;\n }\n\n return n;\n }\n\n} // Returns the number of subsystems\n\nconst SplitSolver_solve_nodes = []; // All allocated node objects\n\nconst SplitSolver_solve_eqs = []; // Temp array\n\nconst SplitSolver_solve_dummyWorld = {\n bodies: []\n}; // Temp object\n\nconst STATIC = Body.STATIC;\n\nfunction getUnvisitedNode(nodes) {\n const Nnodes = nodes.length;\n\n for (let i = 0; i !== Nnodes; i++) {\n const node = nodes[i];\n\n if (!node.visited && !(node.body.type & STATIC)) {\n return node;\n }\n }\n\n return false;\n}\n\nconst queue = [];\n\nfunction bfs(root, visitFunc, bds, eqs) {\n queue.push(root);\n root.visited = true;\n visitFunc(root, bds, eqs);\n\n while (queue.length) {\n const node = queue.pop(); // Loop over unvisited child nodes\n\n let child;\n\n while (child = getUnvisitedNode(node.children)) {\n child.visited = true;\n visitFunc(child, bds, eqs);\n queue.push(child);\n }\n }\n}\n\nfunction visitFunc(node, bds, eqs) {\n bds.push(node.body);\n const Neqs = node.eqs.length;\n\n for (let i = 0; i !== Neqs; i++) {\n const eq = node.eqs[i];\n\n if (!eqs.includes(eq)) {\n eqs.push(eq);\n }\n }\n}\n\nfunction sortById(a, b) {\n return b.id - a.id;\n}\n\n/**\n * For pooling objects that can be reused.\n */\nclass Pool {\n constructor() {\n this.objects = [];\n this.type = Object;\n }\n\n /**\n * Release an object after use\n */\n release(...args) {\n const Nargs = args.length;\n\n for (let i = 0; i !== Nargs; i++) {\n this.objects.push(args[i]);\n }\n\n return this;\n }\n /**\n * Get an object\n */\n\n\n get() {\n if (this.objects.length === 0) {\n return this.constructObject();\n } else {\n return this.objects.pop();\n }\n }\n /**\n * Construct an object. Should be implemented in each subclass.\n */\n\n\n constructObject() {\n throw new Error('constructObject() not implemented in this Pool subclass yet!');\n }\n /**\n * @return Self, for chaining\n */\n\n\n resize(size) {\n const objects = this.objects;\n\n while (objects.length > size) {\n objects.pop();\n }\n\n while (objects.length < size) {\n objects.push(this.constructObject());\n }\n\n return this;\n }\n\n}\n\n/**\n * Vec3Pool\n */\n\nclass Vec3Pool extends Pool {\n constructor(...args) {\n super(...args);\n this.type = Vec3;\n }\n\n /**\n * Construct a vector\n */\n constructObject() {\n return new Vec3();\n }\n\n}\n\nlet _COLLISION_TYPES$sphe, _COLLISION_TYPES$sphe2, _COLLISION_TYPES$boxB, _COLLISION_TYPES$sphe3, _COLLISION_TYPES$plan, _COLLISION_TYPES$conv, _COLLISION_TYPES$sphe4, _COLLISION_TYPES$plan2, _COLLISION_TYPES$boxC, _COLLISION_TYPES$sphe5, _COLLISION_TYPES$boxH, _COLLISION_TYPES$conv2, _COLLISION_TYPES$sphe6, _COLLISION_TYPES$plan3, _COLLISION_TYPES$boxP, _COLLISION_TYPES$conv3, _COLLISION_TYPES$cyli, _COLLISION_TYPES$sphe7, _COLLISION_TYPES$plan4, _COLLISION_TYPES$boxC2, _COLLISION_TYPES$conv4, _COLLISION_TYPES$heig, _COLLISION_TYPES$part, _COLLISION_TYPES$sphe8, _COLLISION_TYPES$plan5;\n// Naming rule: based of the order in SHAPE_TYPES,\n// the first part of the method is formed by the\n// shape type that comes before, in the second part\n// there is the shape type that comes after in the SHAPE_TYPES list\nconst COLLISION_TYPES = {\n sphereSphere: Shape.types.SPHERE,\n spherePlane: Shape.types.SPHERE | Shape.types.PLANE,\n boxBox: Shape.types.BOX | Shape.types.BOX,\n sphereBox: Shape.types.SPHERE | Shape.types.BOX,\n planeBox: Shape.types.PLANE | Shape.types.BOX,\n convexConvex: Shape.types.CONVEXPOLYHEDRON,\n sphereConvex: Shape.types.SPHERE | Shape.types.CONVEXPOLYHEDRON,\n planeConvex: Shape.types.PLANE | Shape.types.CONVEXPOLYHEDRON,\n boxConvex: Shape.types.BOX | Shape.types.CONVEXPOLYHEDRON,\n sphereHeightfield: Shape.types.SPHERE | Shape.types.HEIGHTFIELD,\n boxHeightfield: Shape.types.BOX | Shape.types.HEIGHTFIELD,\n convexHeightfield: Shape.types.CONVEXPOLYHEDRON | Shape.types.HEIGHTFIELD,\n sphereParticle: Shape.types.PARTICLE | Shape.types.SPHERE,\n planeParticle: Shape.types.PLANE | Shape.types.PARTICLE,\n boxParticle: Shape.types.BOX | Shape.types.PARTICLE,\n convexParticle: Shape.types.PARTICLE | Shape.types.CONVEXPOLYHEDRON,\n cylinderCylinder: Shape.types.CYLINDER,\n sphereCylinder: Shape.types.SPHERE | Shape.types.CYLINDER,\n planeCylinder: Shape.types.PLANE | Shape.types.CYLINDER,\n boxCylinder: Shape.types.BOX | Shape.types.CYLINDER,\n convexCylinder: Shape.types.CONVEXPOLYHEDRON | Shape.types.CYLINDER,\n heightfieldCylinder: Shape.types.HEIGHTFIELD | Shape.types.CYLINDER,\n particleCylinder: Shape.types.PARTICLE | Shape.types.CYLINDER,\n sphereTrimesh: Shape.types.SPHERE | Shape.types.TRIMESH,\n planeTrimesh: Shape.types.PLANE | Shape.types.TRIMESH\n};\n_COLLISION_TYPES$sphe = COLLISION_TYPES.sphereSphere;\n_COLLISION_TYPES$sphe2 = COLLISION_TYPES.spherePlane;\n_COLLISION_TYPES$boxB = COLLISION_TYPES.boxBox;\n_COLLISION_TYPES$sphe3 = COLLISION_TYPES.sphereBox;\n_COLLISION_TYPES$plan = COLLISION_TYPES.planeBox;\n_COLLISION_TYPES$conv = COLLISION_TYPES.convexConvex;\n_COLLISION_TYPES$sphe4 = COLLISION_TYPES.sphereConvex;\n_COLLISION_TYPES$plan2 = COLLISION_TYPES.planeConvex;\n_COLLISION_TYPES$boxC = COLLISION_TYPES.boxConvex;\n_COLLISION_TYPES$sphe5 = COLLISION_TYPES.sphereHeightfield;\n_COLLISION_TYPES$boxH = COLLISION_TYPES.boxHeightfield;\n_COLLISION_TYPES$conv2 = COLLISION_TYPES.convexHeightfield;\n_COLLISION_TYPES$sphe6 = COLLISION_TYPES.sphereParticle;\n_COLLISION_TYPES$plan3 = COLLISION_TYPES.planeParticle;\n_COLLISION_TYPES$boxP = COLLISION_TYPES.boxParticle;\n_COLLISION_TYPES$conv3 = COLLISION_TYPES.convexParticle;\n_COLLISION_TYPES$cyli = COLLISION_TYPES.cylinderCylinder;\n_COLLISION_TYPES$sphe7 = COLLISION_TYPES.sphereCylinder;\n_COLLISION_TYPES$plan4 = COLLISION_TYPES.planeCylinder;\n_COLLISION_TYPES$boxC2 = COLLISION_TYPES.boxCylinder;\n_COLLISION_TYPES$conv4 = COLLISION_TYPES.convexCylinder;\n_COLLISION_TYPES$heig = COLLISION_TYPES.heightfieldCylinder;\n_COLLISION_TYPES$part = COLLISION_TYPES.particleCylinder;\n_COLLISION_TYPES$sphe8 = COLLISION_TYPES.sphereTrimesh;\n_COLLISION_TYPES$plan5 = COLLISION_TYPES.planeTrimesh;\n\n/**\n * Helper class for the World. Generates ContactEquations.\n * @todo Sphere-ConvexPolyhedron contacts\n * @todo Contact reduction\n * @todo should move methods to prototype\n */\nclass Narrowphase {\n /**\n * Internal storage of pooled contact points.\n */\n\n /**\n * Pooled vectors.\n */\n get [_COLLISION_TYPES$sphe]() {\n return this.sphereSphere;\n }\n\n get [_COLLISION_TYPES$sphe2]() {\n return this.spherePlane;\n }\n\n get [_COLLISION_TYPES$boxB]() {\n return this.boxBox;\n }\n\n get [_COLLISION_TYPES$sphe3]() {\n return this.sphereBox;\n }\n\n get [_COLLISION_TYPES$plan]() {\n return this.planeBox;\n }\n\n get [_COLLISION_TYPES$conv]() {\n return this.convexConvex;\n }\n\n get [_COLLISION_TYPES$sphe4]() {\n return this.sphereConvex;\n }\n\n get [_COLLISION_TYPES$plan2]() {\n return this.planeConvex;\n }\n\n get [_COLLISION_TYPES$boxC]() {\n return this.boxConvex;\n }\n\n get [_COLLISION_TYPES$sphe5]() {\n return this.sphereHeightfield;\n }\n\n get [_COLLISION_TYPES$boxH]() {\n return this.boxHeightfield;\n }\n\n get [_COLLISION_TYPES$conv2]() {\n return this.convexHeightfield;\n }\n\n get [_COLLISION_TYPES$sphe6]() {\n return this.sphereParticle;\n }\n\n get [_COLLISION_TYPES$plan3]() {\n return this.planeParticle;\n }\n\n get [_COLLISION_TYPES$boxP]() {\n return this.boxParticle;\n }\n\n get [_COLLISION_TYPES$conv3]() {\n return this.convexParticle;\n }\n\n get [_COLLISION_TYPES$cyli]() {\n return this.convexConvex;\n }\n\n get [_COLLISION_TYPES$sphe7]() {\n return this.sphereConvex;\n }\n\n get [_COLLISION_TYPES$plan4]() {\n return this.planeConvex;\n }\n\n get [_COLLISION_TYPES$boxC2]() {\n return this.boxConvex;\n }\n\n get [_COLLISION_TYPES$conv4]() {\n return this.convexConvex;\n }\n\n get [_COLLISION_TYPES$heig]() {\n return this.heightfieldCylinder;\n }\n\n get [_COLLISION_TYPES$part]() {\n return this.particleCylinder;\n }\n\n get [_COLLISION_TYPES$sphe8]() {\n return this.sphereTrimesh;\n }\n\n get [_COLLISION_TYPES$plan5]() {\n return this.planeTrimesh;\n } // get [COLLISION_TYPES.convexTrimesh]() {\n // return this.convexTrimesh\n // }\n\n\n constructor(world) {\n this.contactPointPool = void 0;\n this.frictionEquationPool = void 0;\n this.result = void 0;\n this.frictionResult = void 0;\n this.v3pool = void 0;\n this.world = void 0;\n this.currentContactMaterial = void 0;\n this.enableFrictionReduction = void 0;\n this.contactPointPool = [];\n this.frictionEquationPool = [];\n this.result = [];\n this.frictionResult = [];\n this.v3pool = new Vec3Pool();\n this.world = world;\n this.currentContactMaterial = world.defaultContactMaterial;\n this.enableFrictionReduction = false;\n }\n /**\n * Make a contact object, by using the internal pool or creating a new one.\n */\n\n\n createContactEquation(bi, bj, si, sj, overrideShapeA, overrideShapeB) {\n let c;\n\n if (this.contactPointPool.length) {\n c = this.contactPointPool.pop();\n c.bi = bi;\n c.bj = bj;\n } else {\n c = new ContactEquation(bi, bj);\n }\n\n c.enabled = bi.collisionResponse && bj.collisionResponse && si.collisionResponse && sj.collisionResponse;\n const cm = this.currentContactMaterial;\n c.restitution = cm.restitution;\n c.setSpookParams(cm.contactEquationStiffness, cm.contactEquationRelaxation, this.world.dt);\n const matA = si.material || bi.material;\n const matB = sj.material || bj.material;\n\n if (matA && matB && matA.restitution >= 0 && matB.restitution >= 0) {\n c.restitution = matA.restitution * matB.restitution;\n }\n\n c.si = overrideShapeA || si;\n c.sj = overrideShapeB || sj;\n return c;\n }\n\n createFrictionEquationsFromContact(contactEquation, outArray) {\n const bodyA = contactEquation.bi;\n const bodyB = contactEquation.bj;\n const shapeA = contactEquation.si;\n const shapeB = contactEquation.sj;\n const world = this.world;\n const cm = this.currentContactMaterial; // If friction or restitution were specified in the material, use them\n\n let friction = cm.friction;\n const matA = shapeA.material || bodyA.material;\n const matB = shapeB.material || bodyB.material;\n\n if (matA && matB && matA.friction >= 0 && matB.friction >= 0) {\n friction = matA.friction * matB.friction;\n }\n\n if (friction > 0) {\n // Create 2 tangent equations\n const mug = friction * world.gravity.length();\n let reducedMass = bodyA.invMass + bodyB.invMass;\n\n if (reducedMass > 0) {\n reducedMass = 1 / reducedMass;\n }\n\n const pool = this.frictionEquationPool;\n const c1 = pool.length ? pool.pop() : new FrictionEquation(bodyA, bodyB, mug * reducedMass);\n const c2 = pool.length ? pool.pop() : new FrictionEquation(bodyA, bodyB, mug * reducedMass);\n c1.bi = c2.bi = bodyA;\n c1.bj = c2.bj = bodyB;\n c1.minForce = c2.minForce = -mug * reducedMass;\n c1.maxForce = c2.maxForce = mug * reducedMass; // Copy over the relative vectors\n\n c1.ri.copy(contactEquation.ri);\n c1.rj.copy(contactEquation.rj);\n c2.ri.copy(contactEquation.ri);\n c2.rj.copy(contactEquation.rj); // Construct tangents\n\n contactEquation.ni.tangents(c1.t, c2.t); // Set spook params\n\n c1.setSpookParams(cm.frictionEquationStiffness, cm.frictionEquationRelaxation, world.dt);\n c2.setSpookParams(cm.frictionEquationStiffness, cm.frictionEquationRelaxation, world.dt);\n c1.enabled = c2.enabled = contactEquation.enabled;\n outArray.push(c1, c2);\n return true;\n }\n\n return false;\n }\n /**\n * Take the average N latest contact point on the plane.\n */\n\n\n createFrictionFromAverage(numContacts) {\n // The last contactEquation\n let c = this.result[this.result.length - 1]; // Create the result: two \"average\" friction equations\n\n if (!this.createFrictionEquationsFromContact(c, this.frictionResult) || numContacts === 1) {\n return;\n }\n\n const f1 = this.frictionResult[this.frictionResult.length - 2];\n const f2 = this.frictionResult[this.frictionResult.length - 1];\n averageNormal.setZero();\n averageContactPointA.setZero();\n averageContactPointB.setZero();\n const bodyA = c.bi;\n c.bj;\n\n for (let i = 0; i !== numContacts; i++) {\n c = this.result[this.result.length - 1 - i];\n\n if (c.bi !== bodyA) {\n averageNormal.vadd(c.ni, averageNormal);\n averageContactPointA.vadd(c.ri, averageContactPointA);\n averageContactPointB.vadd(c.rj, averageContactPointB);\n } else {\n averageNormal.vsub(c.ni, averageNormal);\n averageContactPointA.vadd(c.rj, averageContactPointA);\n averageContactPointB.vadd(c.ri, averageContactPointB);\n }\n }\n\n const invNumContacts = 1 / numContacts;\n averageContactPointA.scale(invNumContacts, f1.ri);\n averageContactPointB.scale(invNumContacts, f1.rj);\n f2.ri.copy(f1.ri); // Should be the same\n\n f2.rj.copy(f1.rj);\n averageNormal.normalize();\n averageNormal.tangents(f1.t, f2.t); // return eq;\n }\n /**\n * Generate all contacts between a list of body pairs\n * @param p1 Array of body indices\n * @param p2 Array of body indices\n * @param result Array to store generated contacts\n * @param oldcontacts Optional. Array of reusable contact objects\n */\n\n\n getContacts(p1, p2, world, result, oldcontacts, frictionResult, frictionPool) {\n // Save old contact objects\n this.contactPointPool = oldcontacts;\n this.frictionEquationPool = frictionPool;\n this.result = result;\n this.frictionResult = frictionResult;\n const qi = tmpQuat1;\n const qj = tmpQuat2;\n const xi = tmpVec1;\n const xj = tmpVec2;\n\n for (let k = 0, N = p1.length; k !== N; k++) {\n // Get current collision bodies\n const bi = p1[k];\n const bj = p2[k]; // Get contact material\n\n let bodyContactMaterial = null;\n\n if (bi.material && bj.material) {\n bodyContactMaterial = world.getContactMaterial(bi.material, bj.material) || null;\n }\n\n const justTest = bi.type & Body.KINEMATIC && bj.type & Body.STATIC || bi.type & Body.STATIC && bj.type & Body.KINEMATIC || bi.type & Body.KINEMATIC && bj.type & Body.KINEMATIC;\n\n for (let i = 0; i < bi.shapes.length; i++) {\n bi.quaternion.mult(bi.shapeOrientations[i], qi);\n bi.quaternion.vmult(bi.shapeOffsets[i], xi);\n xi.vadd(bi.position, xi);\n const si = bi.shapes[i];\n\n for (let j = 0; j < bj.shapes.length; j++) {\n // Compute world transform of shapes\n bj.quaternion.mult(bj.shapeOrientations[j], qj);\n bj.quaternion.vmult(bj.shapeOffsets[j], xj);\n xj.vadd(bj.position, xj);\n const sj = bj.shapes[j];\n\n if (!(si.collisionFilterMask & sj.collisionFilterGroup && sj.collisionFilterMask & si.collisionFilterGroup)) {\n continue;\n }\n\n if (xi.distanceTo(xj) > si.boundingSphereRadius + sj.boundingSphereRadius) {\n continue;\n } // Get collision material\n\n\n let shapeContactMaterial = null;\n\n if (si.material && sj.material) {\n shapeContactMaterial = world.getContactMaterial(si.material, sj.material) || null;\n }\n\n this.currentContactMaterial = shapeContactMaterial || bodyContactMaterial || world.defaultContactMaterial; // Get contacts\n\n const resolverIndex = si.type | sj.type;\n const resolver = this[resolverIndex];\n\n if (resolver) {\n let retval = false; // TO DO: investigate why sphereParticle and convexParticle\n // resolvers expect si and sj shapes to be in reverse order\n // (i.e. larger integer value type first instead of smaller first)\n\n if (si.type < sj.type) {\n retval = resolver.call(this, si, sj, xi, xj, qi, qj, bi, bj, si, sj, justTest);\n } else {\n retval = resolver.call(this, sj, si, xj, xi, qj, qi, bj, bi, si, sj, justTest);\n }\n\n if (retval && justTest) {\n // Register overlap\n world.shapeOverlapKeeper.set(si.id, sj.id);\n world.bodyOverlapKeeper.set(bi.id, bj.id);\n }\n }\n }\n }\n }\n }\n\n sphereSphere(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n if (justTest) {\n return xi.distanceSquared(xj) < (si.radius + sj.radius) ** 2;\n } // We will have only one contact in this case\n\n\n const contactEq = this.createContactEquation(bi, bj, si, sj, rsi, rsj); // Contact normal\n\n xj.vsub(xi, contactEq.ni);\n contactEq.ni.normalize(); // Contact point locations\n\n contactEq.ri.copy(contactEq.ni);\n contactEq.rj.copy(contactEq.ni);\n contactEq.ri.scale(si.radius, contactEq.ri);\n contactEq.rj.scale(-sj.radius, contactEq.rj);\n contactEq.ri.vadd(xi, contactEq.ri);\n contactEq.ri.vsub(bi.position, contactEq.ri);\n contactEq.rj.vadd(xj, contactEq.rj);\n contactEq.rj.vsub(bj.position, contactEq.rj);\n this.result.push(contactEq);\n this.createFrictionEquationsFromContact(contactEq, this.frictionResult);\n }\n\n spherePlane(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n // We will have one contact in this case\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj); // Contact normal\n\n r.ni.set(0, 0, 1);\n qj.vmult(r.ni, r.ni);\n r.ni.negate(r.ni); // body i is the sphere, flip normal\n\n r.ni.normalize(); // Needed?\n // Vector from sphere center to contact point\n\n r.ni.scale(si.radius, r.ri); // Project down sphere on plane\n\n xi.vsub(xj, point_on_plane_to_sphere);\n r.ni.scale(r.ni.dot(point_on_plane_to_sphere), plane_to_sphere_ortho);\n point_on_plane_to_sphere.vsub(plane_to_sphere_ortho, r.rj); // The sphere position projected to plane\n\n if (-point_on_plane_to_sphere.dot(r.ni) <= si.radius) {\n if (justTest) {\n return true;\n } // Make it relative to the body\n\n\n const ri = r.ri;\n const rj = r.rj;\n ri.vadd(xi, ri);\n ri.vsub(bi.position, ri);\n rj.vadd(xj, rj);\n rj.vsub(bj.position, rj);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n\n boxBox(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n si.convexPolyhedronRepresentation.material = si.material;\n sj.convexPolyhedronRepresentation.material = sj.material;\n si.convexPolyhedronRepresentation.collisionResponse = si.collisionResponse;\n sj.convexPolyhedronRepresentation.collisionResponse = sj.collisionResponse;\n return this.convexConvex(si.convexPolyhedronRepresentation, sj.convexPolyhedronRepresentation, xi, xj, qi, qj, bi, bj, si, sj, justTest);\n }\n\n sphereBox(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n const v3pool = this.v3pool; // we refer to the box as body j\n\n const sides = sphereBox_sides;\n xi.vsub(xj, box_to_sphere);\n sj.getSideNormals(sides, qj);\n const R = si.radius;\n\n let found = false; // Store the resulting side penetration info\n\n const side_ns = sphereBox_side_ns;\n const side_ns1 = sphereBox_side_ns1;\n const side_ns2 = sphereBox_side_ns2;\n let side_h = null;\n let side_penetrations = 0;\n let side_dot1 = 0;\n let side_dot2 = 0;\n let side_distance = null;\n\n for (let idx = 0, nsides = sides.length; idx !== nsides && found === false; idx++) {\n // Get the plane side normal (ns)\n const ns = sphereBox_ns;\n ns.copy(sides[idx]);\n const h = ns.length();\n ns.normalize(); // The normal/distance dot product tells which side of the plane we are\n\n const dot = box_to_sphere.dot(ns);\n\n if (dot < h + R && dot > 0) {\n // Intersects plane. Now check the other two dimensions\n const ns1 = sphereBox_ns1;\n const ns2 = sphereBox_ns2;\n ns1.copy(sides[(idx + 1) % 3]);\n ns2.copy(sides[(idx + 2) % 3]);\n const h1 = ns1.length();\n const h2 = ns2.length();\n ns1.normalize();\n ns2.normalize();\n const dot1 = box_to_sphere.dot(ns1);\n const dot2 = box_to_sphere.dot(ns2);\n\n if (dot1 < h1 && dot1 > -h1 && dot2 < h2 && dot2 > -h2) {\n const dist = Math.abs(dot - h - R);\n\n if (side_distance === null || dist < side_distance) {\n side_distance = dist;\n side_dot1 = dot1;\n side_dot2 = dot2;\n side_h = h;\n side_ns.copy(ns);\n side_ns1.copy(ns1);\n side_ns2.copy(ns2);\n side_penetrations++;\n\n if (justTest) {\n return true;\n }\n }\n }\n }\n }\n\n if (side_penetrations) {\n found = true;\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n side_ns.scale(-R, r.ri); // Sphere r\n\n r.ni.copy(side_ns);\n r.ni.negate(r.ni); // Normal should be out of sphere\n\n side_ns.scale(side_h, side_ns);\n side_ns1.scale(side_dot1, side_ns1);\n side_ns.vadd(side_ns1, side_ns);\n side_ns2.scale(side_dot2, side_ns2);\n side_ns.vadd(side_ns2, r.rj); // Make relative to bodies\n\n r.ri.vadd(xi, r.ri);\n r.ri.vsub(bi.position, r.ri);\n r.rj.vadd(xj, r.rj);\n r.rj.vsub(bj.position, r.rj);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n } // Check corners\n\n\n let rj = v3pool.get();\n const sphere_to_corner = sphereBox_sphere_to_corner;\n\n for (let j = 0; j !== 2 && !found; j++) {\n for (let k = 0; k !== 2 && !found; k++) {\n for (let l = 0; l !== 2 && !found; l++) {\n rj.set(0, 0, 0);\n\n if (j) {\n rj.vadd(sides[0], rj);\n } else {\n rj.vsub(sides[0], rj);\n }\n\n if (k) {\n rj.vadd(sides[1], rj);\n } else {\n rj.vsub(sides[1], rj);\n }\n\n if (l) {\n rj.vadd(sides[2], rj);\n } else {\n rj.vsub(sides[2], rj);\n } // World position of corner\n\n\n xj.vadd(rj, sphere_to_corner);\n sphere_to_corner.vsub(xi, sphere_to_corner);\n\n if (sphere_to_corner.lengthSquared() < R * R) {\n if (justTest) {\n return true;\n }\n\n found = true;\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n r.ri.copy(sphere_to_corner);\n r.ri.normalize();\n r.ni.copy(r.ri);\n r.ri.scale(R, r.ri);\n r.rj.copy(rj); // Make relative to bodies\n\n r.ri.vadd(xi, r.ri);\n r.ri.vsub(bi.position, r.ri);\n r.rj.vadd(xj, r.rj);\n r.rj.vsub(bj.position, r.rj);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n }\n }\n\n v3pool.release(rj);\n rj = null; // Check edges\n\n const edgeTangent = v3pool.get();\n const edgeCenter = v3pool.get();\n const r = v3pool.get(); // r = edge center to sphere center\n\n const orthogonal = v3pool.get();\n const dist = v3pool.get();\n const Nsides = sides.length;\n\n for (let j = 0; j !== Nsides && !found; j++) {\n for (let k = 0; k !== Nsides && !found; k++) {\n if (j % 3 !== k % 3) {\n // Get edge tangent\n sides[k].cross(sides[j], edgeTangent);\n edgeTangent.normalize();\n sides[j].vadd(sides[k], edgeCenter);\n r.copy(xi);\n r.vsub(edgeCenter, r);\n r.vsub(xj, r);\n const orthonorm = r.dot(edgeTangent); // distance from edge center to sphere center in the tangent direction\n\n edgeTangent.scale(orthonorm, orthogonal); // Vector from edge center to sphere center in the tangent direction\n // Find the third side orthogonal to this one\n\n let l = 0;\n\n while (l === j % 3 || l === k % 3) {\n l++;\n } // vec from edge center to sphere projected to the plane orthogonal to the edge tangent\n\n\n dist.copy(xi);\n dist.vsub(orthogonal, dist);\n dist.vsub(edgeCenter, dist);\n dist.vsub(xj, dist); // Distances in tangent direction and distance in the plane orthogonal to it\n\n const tdist = Math.abs(orthonorm);\n const ndist = dist.length();\n\n if (tdist < sides[l].length() && ndist < R) {\n if (justTest) {\n return true;\n }\n\n found = true;\n const res = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n edgeCenter.vadd(orthogonal, res.rj); // box rj\n\n res.rj.copy(res.rj);\n dist.negate(res.ni);\n res.ni.normalize();\n res.ri.copy(res.rj);\n res.ri.vadd(xj, res.ri);\n res.ri.vsub(xi, res.ri);\n res.ri.normalize();\n res.ri.scale(R, res.ri); // Make relative to bodies\n\n res.ri.vadd(xi, res.ri);\n res.ri.vsub(bi.position, res.ri);\n res.rj.vadd(xj, res.rj);\n res.rj.vsub(bj.position, res.rj);\n this.result.push(res);\n this.createFrictionEquationsFromContact(res, this.frictionResult);\n }\n }\n }\n }\n\n v3pool.release(edgeTangent, edgeCenter, r, orthogonal, dist);\n }\n\n planeBox(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n sj.convexPolyhedronRepresentation.material = sj.material;\n sj.convexPolyhedronRepresentation.collisionResponse = sj.collisionResponse;\n sj.convexPolyhedronRepresentation.id = sj.id;\n return this.planeConvex(si, sj.convexPolyhedronRepresentation, xi, xj, qi, qj, bi, bj, si, sj, justTest);\n }\n\n convexConvex(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest, faceListA, faceListB) {\n const sepAxis = convexConvex_sepAxis;\n\n if (xi.distanceTo(xj) > si.boundingSphereRadius + sj.boundingSphereRadius) {\n return;\n }\n\n if (si.findSeparatingAxis(sj, xi, qi, xj, qj, sepAxis, faceListA, faceListB)) {\n const res = [];\n const q = convexConvex_q;\n si.clipAgainstHull(xi, qi, sj, xj, qj, sepAxis, -100, 100, res);\n let numContacts = 0;\n\n for (let j = 0; j !== res.length; j++) {\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n const ri = r.ri;\n const rj = r.rj;\n sepAxis.negate(r.ni);\n res[j].normal.negate(q);\n q.scale(res[j].depth, q);\n res[j].point.vadd(q, ri);\n rj.copy(res[j].point); // Contact points are in world coordinates. Transform back to relative\n\n ri.vsub(xi, ri);\n rj.vsub(xj, rj); // Make relative to bodies\n\n ri.vadd(xi, ri);\n ri.vsub(bi.position, ri);\n rj.vadd(xj, rj);\n rj.vsub(bj.position, rj);\n this.result.push(r);\n numContacts++;\n\n if (!this.enableFrictionReduction) {\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n\n if (this.enableFrictionReduction && numContacts) {\n this.createFrictionFromAverage(numContacts);\n }\n }\n }\n\n sphereConvex(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n const v3pool = this.v3pool;\n xi.vsub(xj, convex_to_sphere);\n const normals = sj.faceNormals;\n const faces = sj.faces;\n const verts = sj.vertices;\n const R = si.radius;\n // return;\n // }\n\n let found = false; // Check corners\n\n for (let i = 0; i !== verts.length; i++) {\n const v = verts[i]; // World position of corner\n\n const worldCorner = sphereConvex_worldCorner;\n qj.vmult(v, worldCorner);\n xj.vadd(worldCorner, worldCorner);\n const sphere_to_corner = sphereConvex_sphereToCorner;\n worldCorner.vsub(xi, sphere_to_corner);\n\n if (sphere_to_corner.lengthSquared() < R * R) {\n if (justTest) {\n return true;\n }\n\n found = true;\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n r.ri.copy(sphere_to_corner);\n r.ri.normalize();\n r.ni.copy(r.ri);\n r.ri.scale(R, r.ri);\n worldCorner.vsub(xj, r.rj); // Should be relative to the body.\n\n r.ri.vadd(xi, r.ri);\n r.ri.vsub(bi.position, r.ri); // Should be relative to the body.\n\n r.rj.vadd(xj, r.rj);\n r.rj.vsub(bj.position, r.rj);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n return;\n }\n } // Check side (plane) intersections\n\n\n for (let i = 0, nfaces = faces.length; i !== nfaces && found === false; i++) {\n const normal = normals[i];\n const face = faces[i]; // Get world-transformed normal of the face\n\n const worldNormal = sphereConvex_worldNormal;\n qj.vmult(normal, worldNormal); // Get a world vertex from the face\n\n const worldPoint = sphereConvex_worldPoint;\n qj.vmult(verts[face[0]], worldPoint);\n worldPoint.vadd(xj, worldPoint); // Get a point on the sphere, closest to the face normal\n\n const worldSpherePointClosestToPlane = sphereConvex_worldSpherePointClosestToPlane;\n worldNormal.scale(-R, worldSpherePointClosestToPlane);\n xi.vadd(worldSpherePointClosestToPlane, worldSpherePointClosestToPlane); // Vector from a face point to the closest point on the sphere\n\n const penetrationVec = sphereConvex_penetrationVec;\n worldSpherePointClosestToPlane.vsub(worldPoint, penetrationVec); // The penetration. Negative value means overlap.\n\n const penetration = penetrationVec.dot(worldNormal);\n const worldPointToSphere = sphereConvex_sphereToWorldPoint;\n xi.vsub(worldPoint, worldPointToSphere);\n\n if (penetration < 0 && worldPointToSphere.dot(worldNormal) > 0) {\n // Intersects plane. Now check if the sphere is inside the face polygon\n const faceVerts = []; // Face vertices, in world coords\n\n for (let j = 0, Nverts = face.length; j !== Nverts; j++) {\n const worldVertex = v3pool.get();\n qj.vmult(verts[face[j]], worldVertex);\n xj.vadd(worldVertex, worldVertex);\n faceVerts.push(worldVertex);\n }\n\n if (pointInPolygon(faceVerts, worldNormal, xi)) {\n // Is the sphere center in the face polygon?\n if (justTest) {\n return true;\n }\n\n found = true;\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n worldNormal.scale(-R, r.ri); // Contact offset, from sphere center to contact\n\n worldNormal.negate(r.ni); // Normal pointing out of sphere\n\n const penetrationVec2 = v3pool.get();\n worldNormal.scale(-penetration, penetrationVec2);\n const penetrationSpherePoint = v3pool.get();\n worldNormal.scale(-R, penetrationSpherePoint); //xi.vsub(xj).vadd(penetrationSpherePoint).vadd(penetrationVec2 , r.rj);\n\n xi.vsub(xj, r.rj);\n r.rj.vadd(penetrationSpherePoint, r.rj);\n r.rj.vadd(penetrationVec2, r.rj); // Should be relative to the body.\n\n r.rj.vadd(xj, r.rj);\n r.rj.vsub(bj.position, r.rj); // Should be relative to the body.\n\n r.ri.vadd(xi, r.ri);\n r.ri.vsub(bi.position, r.ri);\n v3pool.release(penetrationVec2);\n v3pool.release(penetrationSpherePoint);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult); // Release world vertices\n\n for (let j = 0, Nfaceverts = faceVerts.length; j !== Nfaceverts; j++) {\n v3pool.release(faceVerts[j]);\n }\n\n return; // We only expect *one* face contact\n } else {\n // Edge?\n for (let j = 0; j !== face.length; j++) {\n // Get two world transformed vertices\n const v1 = v3pool.get();\n const v2 = v3pool.get();\n qj.vmult(verts[face[(j + 1) % face.length]], v1);\n qj.vmult(verts[face[(j + 2) % face.length]], v2);\n xj.vadd(v1, v1);\n xj.vadd(v2, v2); // Construct edge vector\n\n const edge = sphereConvex_edge;\n v2.vsub(v1, edge); // Construct the same vector, but normalized\n\n const edgeUnit = sphereConvex_edgeUnit;\n edge.unit(edgeUnit); // p is xi projected onto the edge\n\n const p = v3pool.get();\n const v1_to_xi = v3pool.get();\n xi.vsub(v1, v1_to_xi);\n const dot = v1_to_xi.dot(edgeUnit);\n edgeUnit.scale(dot, p);\n p.vadd(v1, p); // Compute a vector from p to the center of the sphere\n\n const xi_to_p = v3pool.get();\n p.vsub(xi, xi_to_p); // Collision if the edge-sphere distance is less than the radius\n // AND if p is in between v1 and v2\n\n if (dot > 0 && dot * dot < edge.lengthSquared() && xi_to_p.lengthSquared() < R * R) {\n // Collision if the edge-sphere distance is less than the radius\n // Edge contact!\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n p.vsub(xj, r.rj);\n p.vsub(xi, r.ni);\n r.ni.normalize();\n r.ni.scale(R, r.ri); // Should be relative to the body.\n\n r.rj.vadd(xj, r.rj);\n r.rj.vsub(bj.position, r.rj); // Should be relative to the body.\n\n r.ri.vadd(xi, r.ri);\n r.ri.vsub(bi.position, r.ri);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult); // Release world vertices\n\n for (let j = 0, Nfaceverts = faceVerts.length; j !== Nfaceverts; j++) {\n v3pool.release(faceVerts[j]);\n }\n\n v3pool.release(v1);\n v3pool.release(v2);\n v3pool.release(p);\n v3pool.release(xi_to_p);\n v3pool.release(v1_to_xi);\n return;\n }\n\n v3pool.release(v1);\n v3pool.release(v2);\n v3pool.release(p);\n v3pool.release(xi_to_p);\n v3pool.release(v1_to_xi);\n }\n } // Release world vertices\n\n\n for (let j = 0, Nfaceverts = faceVerts.length; j !== Nfaceverts; j++) {\n v3pool.release(faceVerts[j]);\n }\n }\n }\n }\n\n planeConvex(planeShape, convexShape, planePosition, convexPosition, planeQuat, convexQuat, planeBody, convexBody, si, sj, justTest) {\n // Simply return the points behind the plane.\n const worldVertex = planeConvex_v;\n const worldNormal = planeConvex_normal;\n worldNormal.set(0, 0, 1);\n planeQuat.vmult(worldNormal, worldNormal); // Turn normal according to plane orientation\n\n let numContacts = 0;\n const relpos = planeConvex_relpos;\n\n for (let i = 0; i !== convexShape.vertices.length; i++) {\n // Get world convex vertex\n worldVertex.copy(convexShape.vertices[i]);\n convexQuat.vmult(worldVertex, worldVertex);\n convexPosition.vadd(worldVertex, worldVertex);\n worldVertex.vsub(planePosition, relpos);\n const dot = worldNormal.dot(relpos);\n\n if (dot <= 0.0) {\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(planeBody, convexBody, planeShape, convexShape, si, sj); // Get vertex position projected on plane\n\n const projected = planeConvex_projected;\n worldNormal.scale(worldNormal.dot(relpos), projected);\n worldVertex.vsub(projected, projected);\n projected.vsub(planePosition, r.ri); // From plane to vertex projected on plane\n\n r.ni.copy(worldNormal); // Contact normal is the plane normal out from plane\n // rj is now just the vector from the convex center to the vertex\n\n worldVertex.vsub(convexPosition, r.rj); // Make it relative to the body\n\n r.ri.vadd(planePosition, r.ri);\n r.ri.vsub(planeBody.position, r.ri);\n r.rj.vadd(convexPosition, r.rj);\n r.rj.vsub(convexBody.position, r.rj);\n this.result.push(r);\n numContacts++;\n\n if (!this.enableFrictionReduction) {\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n }\n\n if (this.enableFrictionReduction && numContacts) {\n this.createFrictionFromAverage(numContacts);\n }\n }\n\n boxConvex(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n si.convexPolyhedronRepresentation.material = si.material;\n si.convexPolyhedronRepresentation.collisionResponse = si.collisionResponse;\n return this.convexConvex(si.convexPolyhedronRepresentation, sj, xi, xj, qi, qj, bi, bj, si, sj, justTest);\n }\n\n sphereHeightfield(sphereShape, hfShape, spherePos, hfPos, sphereQuat, hfQuat, sphereBody, hfBody, rsi, rsj, justTest) {\n const data = hfShape.data;\n const radius = sphereShape.radius;\n const w = hfShape.elementSize;\n const worldPillarOffset = sphereHeightfield_tmp2; // Get sphere position to heightfield local!\n\n const localSpherePos = sphereHeightfield_tmp1;\n Transform.pointToLocalFrame(hfPos, hfQuat, spherePos, localSpherePos); // Get the index of the data points to test against\n\n let iMinX = Math.floor((localSpherePos.x - radius) / w) - 1;\n let iMaxX = Math.ceil((localSpherePos.x + radius) / w) + 1;\n let iMinY = Math.floor((localSpherePos.y - radius) / w) - 1;\n let iMaxY = Math.ceil((localSpherePos.y + radius) / w) + 1; // Bail out if we are out of the terrain\n\n if (iMaxX < 0 || iMaxY < 0 || iMinX > data.length || iMinY > data[0].length) {\n return;\n } // Clamp index to edges\n\n\n if (iMinX < 0) {\n iMinX = 0;\n }\n\n if (iMaxX < 0) {\n iMaxX = 0;\n }\n\n if (iMinY < 0) {\n iMinY = 0;\n }\n\n if (iMaxY < 0) {\n iMaxY = 0;\n }\n\n if (iMinX >= data.length) {\n iMinX = data.length - 1;\n }\n\n if (iMaxX >= data.length) {\n iMaxX = data.length - 1;\n }\n\n if (iMaxY >= data[0].length) {\n iMaxY = data[0].length - 1;\n }\n\n if (iMinY >= data[0].length) {\n iMinY = data[0].length - 1;\n }\n\n const minMax = [];\n hfShape.getRectMinMax(iMinX, iMinY, iMaxX, iMaxY, minMax);\n const min = minMax[0];\n const max = minMax[1]; // Bail out if we can't touch the bounding height box\n\n if (localSpherePos.z - radius > max || localSpherePos.z + radius < min) {\n return;\n }\n\n const result = this.result;\n\n for (let i = iMinX; i < iMaxX; i++) {\n for (let j = iMinY; j < iMaxY; j++) {\n const numContactsBefore = result.length;\n let intersecting = false; // Lower triangle\n\n hfShape.getConvexTrianglePillar(i, j, false);\n Transform.pointToWorldFrame(hfPos, hfQuat, hfShape.pillarOffset, worldPillarOffset);\n\n if (spherePos.distanceTo(worldPillarOffset) < hfShape.pillarConvex.boundingSphereRadius + sphereShape.boundingSphereRadius) {\n intersecting = this.sphereConvex(sphereShape, hfShape.pillarConvex, spherePos, worldPillarOffset, sphereQuat, hfQuat, sphereBody, hfBody, sphereShape, hfShape, justTest);\n }\n\n if (justTest && intersecting) {\n return true;\n } // Upper triangle\n\n\n hfShape.getConvexTrianglePillar(i, j, true);\n Transform.pointToWorldFrame(hfPos, hfQuat, hfShape.pillarOffset, worldPillarOffset);\n\n if (spherePos.distanceTo(worldPillarOffset) < hfShape.pillarConvex.boundingSphereRadius + sphereShape.boundingSphereRadius) {\n intersecting = this.sphereConvex(sphereShape, hfShape.pillarConvex, spherePos, worldPillarOffset, sphereQuat, hfQuat, sphereBody, hfBody, sphereShape, hfShape, justTest);\n }\n\n if (justTest && intersecting) {\n return true;\n }\n\n const numContacts = result.length - numContactsBefore;\n\n if (numContacts > 2) {\n return;\n }\n /*\n // Skip all but 1\n for (let k = 0; k < numContacts - 1; k++) {\n result.pop();\n }\n */\n\n }\n }\n }\n\n boxHeightfield(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n si.convexPolyhedronRepresentation.material = si.material;\n si.convexPolyhedronRepresentation.collisionResponse = si.collisionResponse;\n return this.convexHeightfield(si.convexPolyhedronRepresentation, sj, xi, xj, qi, qj, bi, bj, si, sj, justTest);\n }\n\n convexHeightfield(convexShape, hfShape, convexPos, hfPos, convexQuat, hfQuat, convexBody, hfBody, rsi, rsj, justTest) {\n const data = hfShape.data;\n const w = hfShape.elementSize;\n const radius = convexShape.boundingSphereRadius;\n const worldPillarOffset = convexHeightfield_tmp2;\n const faceList = convexHeightfield_faceList; // Get sphere position to heightfield local!\n\n const localConvexPos = convexHeightfield_tmp1;\n Transform.pointToLocalFrame(hfPos, hfQuat, convexPos, localConvexPos); // Get the index of the data points to test against\n\n let iMinX = Math.floor((localConvexPos.x - radius) / w) - 1;\n let iMaxX = Math.ceil((localConvexPos.x + radius) / w) + 1;\n let iMinY = Math.floor((localConvexPos.y - radius) / w) - 1;\n let iMaxY = Math.ceil((localConvexPos.y + radius) / w) + 1; // Bail out if we are out of the terrain\n\n if (iMaxX < 0 || iMaxY < 0 || iMinX > data.length || iMinY > data[0].length) {\n return;\n } // Clamp index to edges\n\n\n if (iMinX < 0) {\n iMinX = 0;\n }\n\n if (iMaxX < 0) {\n iMaxX = 0;\n }\n\n if (iMinY < 0) {\n iMinY = 0;\n }\n\n if (iMaxY < 0) {\n iMaxY = 0;\n }\n\n if (iMinX >= data.length) {\n iMinX = data.length - 1;\n }\n\n if (iMaxX >= data.length) {\n iMaxX = data.length - 1;\n }\n\n if (iMaxY >= data[0].length) {\n iMaxY = data[0].length - 1;\n }\n\n if (iMinY >= data[0].length) {\n iMinY = data[0].length - 1;\n }\n\n const minMax = [];\n hfShape.getRectMinMax(iMinX, iMinY, iMaxX, iMaxY, minMax);\n const min = minMax[0];\n const max = minMax[1]; // Bail out if we're cant touch the bounding height box\n\n if (localConvexPos.z - radius > max || localConvexPos.z + radius < min) {\n return;\n }\n\n for (let i = iMinX; i < iMaxX; i++) {\n for (let j = iMinY; j < iMaxY; j++) {\n let intersecting = false; // Lower triangle\n\n hfShape.getConvexTrianglePillar(i, j, false);\n Transform.pointToWorldFrame(hfPos, hfQuat, hfShape.pillarOffset, worldPillarOffset);\n\n if (convexPos.distanceTo(worldPillarOffset) < hfShape.pillarConvex.boundingSphereRadius + convexShape.boundingSphereRadius) {\n intersecting = this.convexConvex(convexShape, hfShape.pillarConvex, convexPos, worldPillarOffset, convexQuat, hfQuat, convexBody, hfBody, null, null, justTest, faceList, null);\n }\n\n if (justTest && intersecting) {\n return true;\n } // Upper triangle\n\n\n hfShape.getConvexTrianglePillar(i, j, true);\n Transform.pointToWorldFrame(hfPos, hfQuat, hfShape.pillarOffset, worldPillarOffset);\n\n if (convexPos.distanceTo(worldPillarOffset) < hfShape.pillarConvex.boundingSphereRadius + convexShape.boundingSphereRadius) {\n intersecting = this.convexConvex(convexShape, hfShape.pillarConvex, convexPos, worldPillarOffset, convexQuat, hfQuat, convexBody, hfBody, null, null, justTest, faceList, null);\n }\n\n if (justTest && intersecting) {\n return true;\n }\n }\n }\n }\n\n sphereParticle(sj, si, xj, xi, qj, qi, bj, bi, rsi, rsj, justTest) {\n // The normal is the unit vector from sphere center to particle center\n const normal = particleSphere_normal;\n normal.set(0, 0, 1);\n xi.vsub(xj, normal);\n const lengthSquared = normal.lengthSquared();\n\n if (lengthSquared <= sj.radius * sj.radius) {\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n normal.normalize();\n r.rj.copy(normal);\n r.rj.scale(sj.radius, r.rj);\n r.ni.copy(normal); // Contact normal\n\n r.ni.negate(r.ni);\n r.ri.set(0, 0, 0); // Center of particle\n\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n\n planeParticle(sj, si, xj, xi, qj, qi, bj, bi, rsi, rsj, justTest) {\n const normal = particlePlane_normal;\n normal.set(0, 0, 1);\n bj.quaternion.vmult(normal, normal); // Turn normal according to plane orientation\n\n const relpos = particlePlane_relpos;\n xi.vsub(bj.position, relpos);\n const dot = normal.dot(relpos);\n\n if (dot <= 0.0) {\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n r.ni.copy(normal); // Contact normal is the plane normal\n\n r.ni.negate(r.ni);\n r.ri.set(0, 0, 0); // Center of particle\n // Get particle position projected on plane\n\n const projected = particlePlane_projected;\n normal.scale(normal.dot(xi), projected);\n xi.vsub(projected, projected); //projected.vadd(bj.position,projected);\n // rj is now the projected world position minus plane position\n\n r.rj.copy(projected);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n\n boxParticle(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n si.convexPolyhedronRepresentation.material = si.material;\n si.convexPolyhedronRepresentation.collisionResponse = si.collisionResponse;\n return this.convexParticle(si.convexPolyhedronRepresentation, sj, xi, xj, qi, qj, bi, bj, si, sj, justTest);\n }\n\n convexParticle(sj, si, xj, xi, qj, qi, bj, bi, rsi, rsj, justTest) {\n let penetratedFaceIndex = -1;\n const penetratedFaceNormal = convexParticle_penetratedFaceNormal;\n const worldPenetrationVec = convexParticle_worldPenetrationVec;\n let minPenetration = null;\n\n const local = convexParticle_local;\n local.copy(xi);\n local.vsub(xj, local); // Convert position to relative the convex origin\n\n qj.conjugate(cqj);\n cqj.vmult(local, local);\n\n if (sj.pointIsInside(local)) {\n if (sj.worldVerticesNeedsUpdate) {\n sj.computeWorldVertices(xj, qj);\n }\n\n if (sj.worldFaceNormalsNeedsUpdate) {\n sj.computeWorldFaceNormals(qj);\n } // For each world polygon in the polyhedra\n\n\n for (let i = 0, nfaces = sj.faces.length; i !== nfaces; i++) {\n // Construct world face vertices\n const verts = [sj.worldVertices[sj.faces[i][0]]];\n const normal = sj.worldFaceNormals[i]; // Check how much the particle penetrates the polygon plane.\n\n xi.vsub(verts[0], convexParticle_vertexToParticle);\n const penetration = -normal.dot(convexParticle_vertexToParticle);\n\n if (minPenetration === null || Math.abs(penetration) < Math.abs(minPenetration)) {\n if (justTest) {\n return true;\n }\n\n minPenetration = penetration;\n penetratedFaceIndex = i;\n penetratedFaceNormal.copy(normal);\n }\n }\n\n if (penetratedFaceIndex !== -1) {\n // Setup contact\n const r = this.createContactEquation(bi, bj, si, sj, rsi, rsj);\n penetratedFaceNormal.scale(minPenetration, worldPenetrationVec); // rj is the particle position projected to the face\n\n worldPenetrationVec.vadd(xi, worldPenetrationVec);\n worldPenetrationVec.vsub(xj, worldPenetrationVec);\n r.rj.copy(worldPenetrationVec); //const projectedToFace = xi.vsub(xj).vadd(worldPenetrationVec);\n //projectedToFace.copy(r.rj);\n //qj.vmult(r.rj,r.rj);\n\n penetratedFaceNormal.negate(r.ni); // Contact normal\n\n r.ri.set(0, 0, 0); // Center of particle\n\n const ri = r.ri;\n const rj = r.rj; // Make relative to bodies\n\n ri.vadd(xi, ri);\n ri.vsub(bi.position, ri);\n rj.vadd(xj, rj);\n rj.vsub(bj.position, rj);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n } else {\n console.warn('Point found inside convex, but did not find penetrating face!');\n }\n }\n }\n\n heightfieldCylinder(hfShape, convexShape, hfPos, convexPos, hfQuat, convexQuat, hfBody, convexBody, rsi, rsj, justTest) {\n return this.convexHeightfield(convexShape, hfShape, convexPos, hfPos, convexQuat, hfQuat, convexBody, hfBody, rsi, rsj, justTest);\n }\n\n particleCylinder(si, sj, xi, xj, qi, qj, bi, bj, rsi, rsj, justTest) {\n return this.convexParticle(sj, si, xj, xi, qj, qi, bj, bi, rsi, rsj, justTest);\n }\n\n sphereTrimesh(sphereShape, trimeshShape, spherePos, trimeshPos, sphereQuat, trimeshQuat, sphereBody, trimeshBody, rsi, rsj, justTest) {\n const edgeVertexA = sphereTrimesh_edgeVertexA;\n const edgeVertexB = sphereTrimesh_edgeVertexB;\n const edgeVector = sphereTrimesh_edgeVector;\n const edgeVectorUnit = sphereTrimesh_edgeVectorUnit;\n const localSpherePos = sphereTrimesh_localSpherePos;\n const tmp = sphereTrimesh_tmp;\n const localSphereAABB = sphereTrimesh_localSphereAABB;\n const v2 = sphereTrimesh_v2;\n const relpos = sphereTrimesh_relpos;\n const triangles = sphereTrimesh_triangles; // Convert sphere position to local in the trimesh\n\n Transform.pointToLocalFrame(trimeshPos, trimeshQuat, spherePos, localSpherePos); // Get the aabb of the sphere locally in the trimesh\n\n const sphereRadius = sphereShape.radius;\n localSphereAABB.lowerBound.set(localSpherePos.x - sphereRadius, localSpherePos.y - sphereRadius, localSpherePos.z - sphereRadius);\n localSphereAABB.upperBound.set(localSpherePos.x + sphereRadius, localSpherePos.y + sphereRadius, localSpherePos.z + sphereRadius);\n trimeshShape.getTrianglesInAABB(localSphereAABB, triangles); //for (let i = 0; i < trimeshShape.indices.length / 3; i++) triangles.push(i); // All\n // Vertices\n\n const v = sphereTrimesh_v;\n const radiusSquared = sphereShape.radius * sphereShape.radius;\n\n for (let i = 0; i < triangles.length; i++) {\n for (let j = 0; j < 3; j++) {\n trimeshShape.getVertex(trimeshShape.indices[triangles[i] * 3 + j], v); // Check vertex overlap in sphere\n\n v.vsub(localSpherePos, relpos);\n\n if (relpos.lengthSquared() <= radiusSquared) {\n // Safe up\n v2.copy(v);\n Transform.pointToWorldFrame(trimeshPos, trimeshQuat, v2, v);\n v.vsub(spherePos, relpos);\n\n if (justTest) {\n return true;\n }\n\n let r = this.createContactEquation(sphereBody, trimeshBody, sphereShape, trimeshShape, rsi, rsj);\n r.ni.copy(relpos);\n r.ni.normalize(); // ri is the vector from sphere center to the sphere surface\n\n r.ri.copy(r.ni);\n r.ri.scale(sphereShape.radius, r.ri);\n r.ri.vadd(spherePos, r.ri);\n r.ri.vsub(sphereBody.position, r.ri);\n r.rj.copy(v);\n r.rj.vsub(trimeshBody.position, r.rj); // Store result\n\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n } // Check all edges\n\n\n for (let i = 0; i < triangles.length; i++) {\n for (let j = 0; j < 3; j++) {\n trimeshShape.getVertex(trimeshShape.indices[triangles[i] * 3 + j], edgeVertexA);\n trimeshShape.getVertex(trimeshShape.indices[triangles[i] * 3 + (j + 1) % 3], edgeVertexB);\n edgeVertexB.vsub(edgeVertexA, edgeVector); // Project sphere position to the edge\n\n localSpherePos.vsub(edgeVertexB, tmp);\n const positionAlongEdgeB = tmp.dot(edgeVector);\n localSpherePos.vsub(edgeVertexA, tmp);\n let positionAlongEdgeA = tmp.dot(edgeVector);\n\n if (positionAlongEdgeA > 0 && positionAlongEdgeB < 0) {\n // Now check the orthogonal distance from edge to sphere center\n localSpherePos.vsub(edgeVertexA, tmp);\n edgeVectorUnit.copy(edgeVector);\n edgeVectorUnit.normalize();\n positionAlongEdgeA = tmp.dot(edgeVectorUnit);\n edgeVectorUnit.scale(positionAlongEdgeA, tmp);\n tmp.vadd(edgeVertexA, tmp); // tmp is now the sphere center position projected to the edge, defined locally in the trimesh frame\n\n const dist = tmp.distanceTo(localSpherePos);\n\n if (dist < sphereShape.radius) {\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(sphereBody, trimeshBody, sphereShape, trimeshShape, rsi, rsj);\n tmp.vsub(localSpherePos, r.ni);\n r.ni.normalize();\n r.ni.scale(sphereShape.radius, r.ri);\n r.ri.vadd(spherePos, r.ri);\n r.ri.vsub(sphereBody.position, r.ri);\n Transform.pointToWorldFrame(trimeshPos, trimeshQuat, tmp, tmp);\n tmp.vsub(trimeshBody.position, r.rj);\n Transform.vectorToWorldFrame(trimeshQuat, r.ni, r.ni);\n Transform.vectorToWorldFrame(trimeshQuat, r.ri, r.ri);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n }\n } // Triangle faces\n\n\n const va = sphereTrimesh_va;\n const vb = sphereTrimesh_vb;\n const vc = sphereTrimesh_vc;\n const normal = sphereTrimesh_normal;\n\n for (let i = 0, N = triangles.length; i !== N; i++) {\n trimeshShape.getTriangleVertices(triangles[i], va, vb, vc);\n trimeshShape.getNormal(triangles[i], normal);\n localSpherePos.vsub(va, tmp);\n let dist = tmp.dot(normal);\n normal.scale(dist, tmp);\n localSpherePos.vsub(tmp, tmp); // tmp is now the sphere position projected to the triangle plane\n\n dist = tmp.distanceTo(localSpherePos);\n\n if (Ray.pointInTriangle(tmp, va, vb, vc) && dist < sphereShape.radius) {\n if (justTest) {\n return true;\n }\n\n let r = this.createContactEquation(sphereBody, trimeshBody, sphereShape, trimeshShape, rsi, rsj);\n tmp.vsub(localSpherePos, r.ni);\n r.ni.normalize();\n r.ni.scale(sphereShape.radius, r.ri);\n r.ri.vadd(spherePos, r.ri);\n r.ri.vsub(sphereBody.position, r.ri);\n Transform.pointToWorldFrame(trimeshPos, trimeshQuat, tmp, tmp);\n tmp.vsub(trimeshBody.position, r.rj);\n Transform.vectorToWorldFrame(trimeshQuat, r.ni, r.ni);\n Transform.vectorToWorldFrame(trimeshQuat, r.ri, r.ri);\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n\n triangles.length = 0;\n }\n\n planeTrimesh(planeShape, trimeshShape, planePos, trimeshPos, planeQuat, trimeshQuat, planeBody, trimeshBody, rsi, rsj, justTest) {\n // Make contacts!\n const v = new Vec3();\n const normal = planeTrimesh_normal;\n normal.set(0, 0, 1);\n planeQuat.vmult(normal, normal); // Turn normal according to plane\n\n for (let i = 0; i < trimeshShape.vertices.length / 3; i++) {\n // Get world vertex from trimesh\n trimeshShape.getVertex(i, v); // Safe up\n\n const v2 = new Vec3();\n v2.copy(v);\n Transform.pointToWorldFrame(trimeshPos, trimeshQuat, v2, v); // Check plane side\n\n const relpos = planeTrimesh_relpos;\n v.vsub(planePos, relpos);\n const dot = normal.dot(relpos);\n\n if (dot <= 0.0) {\n if (justTest) {\n return true;\n }\n\n const r = this.createContactEquation(planeBody, trimeshBody, planeShape, trimeshShape, rsi, rsj);\n r.ni.copy(normal); // Contact normal is the plane normal\n // Get vertex position projected on plane\n\n const projected = planeTrimesh_projected;\n normal.scale(relpos.dot(normal), projected);\n v.vsub(projected, projected); // ri is the projected world position minus plane position\n\n r.ri.copy(projected);\n r.ri.vsub(planeBody.position, r.ri);\n r.rj.copy(v);\n r.rj.vsub(trimeshBody.position, r.rj); // Store result\n\n this.result.push(r);\n this.createFrictionEquationsFromContact(r, this.frictionResult);\n }\n }\n } // convexTrimesh(\n // si: ConvexPolyhedron, sj: Trimesh, xi: Vec3, xj: Vec3, qi: Quaternion, qj: Quaternion,\n // bi: Body, bj: Body, rsi?: Shape | null, rsj?: Shape | null,\n // faceListA?: number[] | null, faceListB?: number[] | null,\n // ) {\n // const sepAxis = convexConvex_sepAxis;\n // if(xi.distanceTo(xj) > si.boundingSphereRadius + sj.boundingSphereRadius){\n // return;\n // }\n // // Construct a temp hull for each triangle\n // const hullB = new ConvexPolyhedron();\n // hullB.faces = [[0,1,2]];\n // const va = new Vec3();\n // const vb = new Vec3();\n // const vc = new Vec3();\n // hullB.vertices = [\n // va,\n // vb,\n // vc\n // ];\n // for (let i = 0; i < sj.indices.length / 3; i++) {\n // const triangleNormal = new Vec3();\n // sj.getNormal(i, triangleNormal);\n // hullB.faceNormals = [triangleNormal];\n // sj.getTriangleVertices(i, va, vb, vc);\n // let d = si.testSepAxis(triangleNormal, hullB, xi, qi, xj, qj);\n // if(!d){\n // triangleNormal.scale(-1, triangleNormal);\n // d = si.testSepAxis(triangleNormal, hullB, xi, qi, xj, qj);\n // if(!d){\n // continue;\n // }\n // }\n // const res: ConvexPolyhedronContactPoint[] = [];\n // const q = convexConvex_q;\n // si.clipAgainstHull(xi,qi,hullB,xj,qj,triangleNormal,-100,100,res);\n // for(let j = 0; j !== res.length; j++){\n // const r = this.createContactEquation(bi,bj,si,sj,rsi,rsj),\n // ri = r.ri,\n // rj = r.rj;\n // r.ni.copy(triangleNormal);\n // r.ni.negate(r.ni);\n // res[j].normal.negate(q);\n // q.mult(res[j].depth, q);\n // res[j].point.vadd(q, ri);\n // rj.copy(res[j].point);\n // // Contact points are in world coordinates. Transform back to relative\n // ri.vsub(xi,ri);\n // rj.vsub(xj,rj);\n // // Make relative to bodies\n // ri.vadd(xi, ri);\n // ri.vsub(bi.position, ri);\n // rj.vadd(xj, rj);\n // rj.vsub(bj.position, rj);\n // result.push(r);\n // }\n // }\n // }\n\n\n}\nconst averageNormal = new Vec3();\nconst averageContactPointA = new Vec3();\nconst averageContactPointB = new Vec3();\nconst tmpVec1 = new Vec3();\nconst tmpVec2 = new Vec3();\nconst tmpQuat1 = new Quaternion();\nconst tmpQuat2 = new Quaternion();\n\nconst planeTrimesh_normal = new Vec3();\nconst planeTrimesh_relpos = new Vec3();\nconst planeTrimesh_projected = new Vec3();\nconst sphereTrimesh_normal = new Vec3();\nconst sphereTrimesh_relpos = new Vec3();\nconst sphereTrimesh_v = new Vec3();\nconst sphereTrimesh_v2 = new Vec3();\nconst sphereTrimesh_edgeVertexA = new Vec3();\nconst sphereTrimesh_edgeVertexB = new Vec3();\nconst sphereTrimesh_edgeVector = new Vec3();\nconst sphereTrimesh_edgeVectorUnit = new Vec3();\nconst sphereTrimesh_localSpherePos = new Vec3();\nconst sphereTrimesh_tmp = new Vec3();\nconst sphereTrimesh_va = new Vec3();\nconst sphereTrimesh_vb = new Vec3();\nconst sphereTrimesh_vc = new Vec3();\nconst sphereTrimesh_localSphereAABB = new AABB();\nconst sphereTrimesh_triangles = [];\nconst point_on_plane_to_sphere = new Vec3();\nconst plane_to_sphere_ortho = new Vec3(); // See http://bulletphysics.com/Bullet/BulletFull/SphereTriangleDetector_8cpp_source.html\n\nconst pointInPolygon_edge = new Vec3();\nconst pointInPolygon_edge_x_normal = new Vec3();\nconst pointInPolygon_vtp = new Vec3();\n\nfunction pointInPolygon(verts, normal, p) {\n let positiveResult = null;\n const N = verts.length;\n\n for (let i = 0; i !== N; i++) {\n const v = verts[i]; // Get edge to the next vertex\n\n const edge = pointInPolygon_edge;\n verts[(i + 1) % N].vsub(v, edge); // Get cross product between polygon normal and the edge\n\n const edge_x_normal = pointInPolygon_edge_x_normal; //const edge_x_normal = new Vec3();\n\n edge.cross(normal, edge_x_normal); // Get vector between point and current vertex\n\n const vertex_to_p = pointInPolygon_vtp;\n p.vsub(v, vertex_to_p); // This dot product determines which side of the edge the point is\n\n const r = edge_x_normal.dot(vertex_to_p); // If all such dot products have same sign, we are inside the polygon.\n\n if (positiveResult === null || r > 0 && positiveResult === true || r <= 0 && positiveResult === false) {\n if (positiveResult === null) {\n positiveResult = r > 0;\n }\n\n continue;\n } else {\n return false; // Encountered some other sign. Exit.\n }\n } // If we got here, all dot products were of the same sign.\n\n\n return true;\n}\n\nconst box_to_sphere = new Vec3();\nconst sphereBox_ns = new Vec3();\nconst sphereBox_ns1 = new Vec3();\nconst sphereBox_ns2 = new Vec3();\nconst sphereBox_sides = [new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3(), new Vec3()];\nconst sphereBox_sphere_to_corner = new Vec3();\nconst sphereBox_side_ns = new Vec3();\nconst sphereBox_side_ns1 = new Vec3();\nconst sphereBox_side_ns2 = new Vec3();\nconst convex_to_sphere = new Vec3();\nconst sphereConvex_edge = new Vec3();\nconst sphereConvex_edgeUnit = new Vec3();\nconst sphereConvex_sphereToCorner = new Vec3();\nconst sphereConvex_worldCorner = new Vec3();\nconst sphereConvex_worldNormal = new Vec3();\nconst sphereConvex_worldPoint = new Vec3();\nconst sphereConvex_worldSpherePointClosestToPlane = new Vec3();\nconst sphereConvex_penetrationVec = new Vec3();\nconst sphereConvex_sphereToWorldPoint = new Vec3();\nconst planeConvex_v = new Vec3();\nconst planeConvex_normal = new Vec3();\nconst planeConvex_relpos = new Vec3();\nconst planeConvex_projected = new Vec3();\nconst convexConvex_sepAxis = new Vec3();\nconst convexConvex_q = new Vec3();\nconst particlePlane_normal = new Vec3();\nconst particlePlane_relpos = new Vec3();\nconst particlePlane_projected = new Vec3();\nconst particleSphere_normal = new Vec3(); // WIP\n\nconst cqj = new Quaternion();\nconst convexParticle_local = new Vec3();\nconst convexParticle_penetratedFaceNormal = new Vec3();\nconst convexParticle_vertexToParticle = new Vec3();\nconst convexParticle_worldPenetrationVec = new Vec3();\nconst convexHeightfield_tmp1 = new Vec3();\nconst convexHeightfield_tmp2 = new Vec3();\nconst convexHeightfield_faceList = [0];\nconst sphereHeightfield_tmp1 = new Vec3();\nconst sphereHeightfield_tmp2 = new Vec3();\n\nclass OverlapKeeper {\n /**\n * @todo Remove useless constructor\n */\n constructor() {\n this.current = void 0;\n this.previous = void 0;\n this.current = [];\n this.previous = [];\n }\n /**\n * getKey\n */\n\n\n getKey(i, j) {\n if (j < i) {\n const temp = j;\n j = i;\n i = temp;\n }\n\n return i << 16 | j;\n }\n /**\n * set\n */\n\n\n set(i, j) {\n // Insertion sort. This way the diff will have linear complexity.\n const key = this.getKey(i, j);\n const current = this.current;\n let index = 0;\n\n while (key > current[index]) {\n index++;\n }\n\n if (key === current[index]) {\n return; // Pair was already added\n }\n\n for (let j = current.length - 1; j >= index; j--) {\n current[j + 1] = current[j];\n }\n\n current[index] = key;\n }\n /**\n * tick\n */\n\n\n tick() {\n const tmp = this.current;\n this.current = this.previous;\n this.previous = tmp;\n this.current.length = 0;\n }\n /**\n * getDiff\n */\n\n\n getDiff(additions, removals) {\n const a = this.current;\n const b = this.previous;\n const al = a.length;\n const bl = b.length;\n let j = 0;\n\n for (let i = 0; i < al; i++) {\n let found = false;\n const keyA = a[i];\n\n while (keyA > b[j]) {\n j++;\n }\n\n found = keyA === b[j];\n\n if (!found) {\n unpackAndPush(additions, keyA);\n }\n }\n\n j = 0;\n\n for (let i = 0; i < bl; i++) {\n let found = false;\n const keyB = b[i];\n\n while (keyB > a[j]) {\n j++;\n }\n\n found = a[j] === keyB;\n\n if (!found) {\n unpackAndPush(removals, keyB);\n }\n }\n }\n\n}\n\nfunction unpackAndPush(array, key) {\n array.push((key & 0xffff0000) >> 16, key & 0x0000ffff);\n}\n\n/**\n * TupleDictionary\n */\nclass TupleDictionary {\n constructor() {\n this.data = {\n keys: []\n };\n }\n\n /** get */\n get(i, j) {\n if (i > j) {\n // swap\n const temp = j;\n j = i;\n i = temp;\n }\n\n return this.data[i + \"-\" + j];\n }\n /** set */\n\n\n set(i, j, value) {\n if (i > j) {\n const temp = j;\n j = i;\n i = temp;\n }\n\n const key = i + \"-\" + j; // Check if key already exists\n\n if (!this.get(i, j)) {\n this.data.keys.push(key);\n }\n\n this.data[key] = value;\n }\n /** reset */\n\n\n reset() {\n const data = this.data;\n const keys = data.keys;\n\n while (keys.length > 0) {\n const key = keys.pop();\n delete data[key];\n }\n }\n\n}\n\n/**\n * The physics world\n */\nclass World extends EventTarget {\n /**\n * Currently / last used timestep. Is set to -1 if not available. This value is updated before each internal step, which means that it is \"fresh\" inside event callbacks.\n */\n\n /**\n * Makes bodies go to sleep when they've been inactive.\n * @default false\n */\n\n /**\n * All the current contacts (instances of ContactEquation) in the world.\n */\n\n /**\n * How often to normalize quaternions. Set to 0 for every step, 1 for every second etc.. A larger value increases performance. If bodies tend to explode, set to a smaller value (zero to be sure nothing can go wrong).\n * @default 0\n */\n\n /**\n * Set to true to use fast quaternion normalization. It is often enough accurate to use.\n * If bodies tend to explode, set to false.\n * @default false\n */\n\n /**\n * The wall-clock time since simulation start.\n */\n\n /**\n * Number of timesteps taken since start.\n */\n\n /**\n * Default and last timestep sizes.\n */\n\n /**\n * The gravity of the world.\n */\n\n /**\n * The broadphase algorithm to use.\n * @default NaiveBroadphase\n */\n\n /**\n * All bodies in this world\n */\n\n /**\n * True if any bodies are not sleeping, false if every body is sleeping.\n */\n\n /**\n * The solver algorithm to use.\n * @default GSSolver\n */\n\n /**\n * collisionMatrix\n */\n\n /**\n * CollisionMatrix from the previous step.\n */\n\n /**\n * All added materials.\n * @deprecated\n * @todo Remove\n */\n\n /**\n * All added contactmaterials.\n */\n\n /**\n * Used to look up a ContactMaterial given two instances of Material.\n */\n\n /**\n * The default material of the bodies.\n */\n\n /**\n * This contact material is used if no suitable contactmaterial is found for a contact.\n */\n\n /**\n * Time accumulator for interpolation.\n * @see https://gafferongames.com/game-physics/fix-your-timestep/\n */\n\n /**\n * Dispatched after a body has been added to the world.\n */\n\n /**\n * Dispatched after a body has been removed from the world.\n */\n constructor(options = {}) {\n super();\n this.dt = void 0;\n this.allowSleep = void 0;\n this.contacts = void 0;\n this.frictionEquations = void 0;\n this.quatNormalizeSkip = void 0;\n this.quatNormalizeFast = void 0;\n this.time = void 0;\n this.stepnumber = void 0;\n this.default_dt = void 0;\n this.nextId = void 0;\n this.gravity = void 0;\n this.broadphase = void 0;\n this.bodies = void 0;\n this.hasActiveBodies = void 0;\n this.solver = void 0;\n this.constraints = void 0;\n this.narrowphase = void 0;\n this.collisionMatrix = void 0;\n this.collisionMatrixPrevious = void 0;\n this.bodyOverlapKeeper = void 0;\n this.shapeOverlapKeeper = void 0;\n this.materials = void 0;\n this.contactmaterials = void 0;\n this.contactMaterialTable = void 0;\n this.defaultMaterial = void 0;\n this.defaultContactMaterial = void 0;\n this.doProfiling = void 0;\n this.profile = void 0;\n this.accumulator = void 0;\n this.subsystems = void 0;\n this.addBodyEvent = void 0;\n this.removeBodyEvent = void 0;\n this.idToBodyMap = void 0;\n this.dt = -1;\n this.allowSleep = !!options.allowSleep;\n this.contacts = [];\n this.frictionEquations = [];\n this.quatNormalizeSkip = options.quatNormalizeSkip !== undefined ? options.quatNormalizeSkip : 0;\n this.quatNormalizeFast = options.quatNormalizeFast !== undefined ? options.quatNormalizeFast : false;\n this.time = 0.0;\n this.stepnumber = 0;\n this.default_dt = 1 / 60;\n this.nextId = 0;\n this.gravity = new Vec3();\n\n if (options.gravity) {\n this.gravity.copy(options.gravity);\n }\n\n this.broadphase = options.broadphase !== undefined ? options.broadphase : new NaiveBroadphase();\n this.bodies = [];\n this.hasActiveBodies = false;\n this.solver = options.solver !== undefined ? options.solver : new GSSolver();\n this.constraints = [];\n this.narrowphase = new Narrowphase(this);\n this.collisionMatrix = new ArrayCollisionMatrix();\n this.collisionMatrixPrevious = new ArrayCollisionMatrix();\n this.bodyOverlapKeeper = new OverlapKeeper();\n this.shapeOverlapKeeper = new OverlapKeeper();\n this.materials = [];\n this.contactmaterials = [];\n this.contactMaterialTable = new TupleDictionary();\n this.defaultMaterial = new Material('default');\n this.defaultContactMaterial = new ContactMaterial(this.defaultMaterial, this.defaultMaterial, {\n friction: 0.3,\n restitution: 0.0\n });\n this.doProfiling = false;\n this.profile = {\n solve: 0,\n makeContactConstraints: 0,\n broadphase: 0,\n integrate: 0,\n narrowphase: 0\n };\n this.accumulator = 0;\n this.subsystems = [];\n this.addBodyEvent = {\n type: 'addBody',\n body: null\n };\n this.removeBodyEvent = {\n type: 'removeBody',\n body: null\n };\n this.idToBodyMap = {};\n this.broadphase.setWorld(this);\n }\n /**\n * Get the contact material between materials m1 and m2\n * @return The contact material if it was found.\n */\n\n\n getContactMaterial(m1, m2) {\n return this.contactMaterialTable.get(m1.id, m2.id);\n }\n /**\n * Get number of objects in the world.\n * @deprecated\n */\n\n\n numObjects() {\n return this.bodies.length;\n }\n /**\n * Store old collision state info\n */\n\n\n collisionMatrixTick() {\n const temp = this.collisionMatrixPrevious;\n this.collisionMatrixPrevious = this.collisionMatrix;\n this.collisionMatrix = temp;\n this.collisionMatrix.reset();\n this.bodyOverlapKeeper.tick();\n this.shapeOverlapKeeper.tick();\n }\n /**\n * Add a constraint to the simulation.\n */\n\n\n addConstraint(c) {\n this.constraints.push(c);\n }\n /**\n * Removes a constraint\n */\n\n\n removeConstraint(c) {\n const idx = this.constraints.indexOf(c);\n\n if (idx !== -1) {\n this.constraints.splice(idx, 1);\n }\n }\n /**\n * Raycast test\n * @deprecated Use .raycastAll, .raycastClosest or .raycastAny instead.\n */\n\n\n rayTest(from, to, result) {\n if (result instanceof RaycastResult) {\n // Do raycastClosest\n this.raycastClosest(from, to, {\n skipBackfaces: true\n }, result);\n } else {\n // Do raycastAll\n this.raycastAll(from, to, {\n skipBackfaces: true\n }, result);\n }\n }\n /**\n * Ray cast against all bodies. The provided callback will be executed for each hit with a RaycastResult as single argument.\n * @return True if any body was hit.\n */\n\n\n raycastAll(from, to, options = {}, callback) {\n options.mode = Ray.ALL;\n options.from = from;\n options.to = to;\n options.callback = callback;\n return tmpRay.intersectWorld(this, options);\n }\n /**\n * Ray cast, and stop at the first result. Note that the order is random - but the method is fast.\n * @return True if any body was hit.\n */\n\n\n raycastAny(from, to, options = {}, result) {\n options.mode = Ray.ANY;\n options.from = from;\n options.to = to;\n options.result = result;\n return tmpRay.intersectWorld(this, options);\n }\n /**\n * Ray cast, and return information of the closest hit.\n * @return True if any body was hit.\n */\n\n\n raycastClosest(from, to, options = {}, result) {\n options.mode = Ray.CLOSEST;\n options.from = from;\n options.to = to;\n options.result = result;\n return tmpRay.intersectWorld(this, options);\n }\n /**\n * Add a rigid body to the simulation.\n * @todo If the simulation has not yet started, why recrete and copy arrays for each body? Accumulate in dynamic arrays in this case.\n * @todo Adding an array of bodies should be possible. This would save some loops too\n */\n\n\n addBody(body) {\n if (this.bodies.includes(body)) {\n return;\n }\n\n body.index = this.bodies.length;\n this.bodies.push(body);\n body.world = this;\n body.initPosition.copy(body.position);\n body.initVelocity.copy(body.velocity);\n body.timeLastSleepy = this.time;\n\n if (body instanceof Body) {\n body.initAngularVelocity.copy(body.angularVelocity);\n body.initQuaternion.copy(body.quaternion);\n }\n\n this.collisionMatrix.setNumObjects(this.bodies.length);\n this.addBodyEvent.body = body;\n this.idToBodyMap[body.id] = body;\n this.dispatchEvent(this.addBodyEvent);\n }\n /**\n * Remove a rigid body from the simulation.\n */\n\n\n removeBody(body) {\n body.world = null;\n const n = this.bodies.length - 1;\n const bodies = this.bodies;\n const idx = bodies.indexOf(body);\n\n if (idx !== -1) {\n bodies.splice(idx, 1); // Todo: should use a garbage free method\n // Recompute index\n\n for (let i = 0; i !== bodies.length; i++) {\n bodies[i].index = i;\n }\n\n this.collisionMatrix.setNumObjects(n);\n this.removeBodyEvent.body = body;\n delete this.idToBodyMap[body.id];\n this.dispatchEvent(this.removeBodyEvent);\n }\n }\n\n getBodyById(id) {\n return this.idToBodyMap[id];\n }\n /**\n * @todo Make a faster map\n */\n\n\n getShapeById(id) {\n const bodies = this.bodies;\n\n for (let i = 0; i < bodies.length; i++) {\n const shapes = bodies[i].shapes;\n\n for (let j = 0; j < shapes.length; j++) {\n const shape = shapes[j];\n\n if (shape.id === id) {\n return shape;\n }\n }\n }\n\n return null;\n }\n /**\n * Adds a material to the World.\n * @deprecated\n * @todo Remove\n */\n\n\n addMaterial(m) {\n this.materials.push(m);\n }\n /**\n * Adds a contact material to the World\n */\n\n\n addContactMaterial(cmat) {\n // Add contact material\n this.contactmaterials.push(cmat); // Add current contact material to the material table\n\n this.contactMaterialTable.set(cmat.materials[0].id, cmat.materials[1].id, cmat);\n }\n /**\n * Step the physics world forward in time.\n *\n * There are two modes. The simple mode is fixed timestepping without interpolation. In this case you only use the first argument. The second case uses interpolation. In that you also provide the time since the function was last used, as well as the maximum fixed timesteps to take.\n *\n * @param dt The fixed time step size to use.\n * @param timeSinceLastCalled The time elapsed since the function was last called.\n * @param maxSubSteps Maximum number of fixed steps to take per function call.\n * @see https://web.archive.org/web/20180426154531/http://bulletphysics.org/mediawiki-1.5.8/index.php/Stepping_The_World#What_do_the_parameters_to_btDynamicsWorld::stepSimulation_mean.3F\n * @example\n * // fixed timestepping without interpolation\n * world.step(1 / 60)\n */\n\n\n step(dt, timeSinceLastCalled, maxSubSteps = 10) {\n if (timeSinceLastCalled === undefined) {\n // Fixed, simple stepping\n this.internalStep(dt); // Increment time\n\n this.time += dt;\n } else {\n this.accumulator += timeSinceLastCalled;\n const t0 = performance.now();\n let substeps = 0;\n\n while (this.accumulator >= dt && substeps < maxSubSteps) {\n // Do fixed steps to catch up\n this.internalStep(dt);\n this.accumulator -= dt;\n substeps++;\n\n if (performance.now() - t0 > dt * 1000) {\n // The framerate is not interactive anymore.\n // We are below the target framerate.\n // Better bail out.\n break;\n }\n } // Remove the excess accumulator, since we may not\n // have had enough substeps available to catch up\n\n\n this.accumulator = this.accumulator % dt;\n const t = this.accumulator / dt;\n\n for (let j = 0; j !== this.bodies.length; j++) {\n const b = this.bodies[j];\n b.previousPosition.lerp(b.position, t, b.interpolatedPosition);\n b.previousQuaternion.slerp(b.quaternion, t, b.interpolatedQuaternion);\n b.previousQuaternion.normalize();\n }\n\n this.time += timeSinceLastCalled;\n }\n }\n\n internalStep(dt) {\n this.dt = dt;\n const contacts = this.contacts;\n const p1 = World_step_p1;\n const p2 = World_step_p2;\n const N = this.numObjects();\n const bodies = this.bodies;\n const solver = this.solver;\n const gravity = this.gravity;\n const doProfiling = this.doProfiling;\n const profile = this.profile;\n const DYNAMIC = Body.DYNAMIC;\n let profilingStart = -Infinity;\n const constraints = this.constraints;\n const frictionEquationPool = World_step_frictionEquationPool;\n gravity.length();\n const gx = gravity.x;\n const gy = gravity.y;\n const gz = gravity.z;\n let i = 0;\n\n if (doProfiling) {\n profilingStart = performance.now();\n } // Add gravity to all objects\n\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n\n if (bi.type === DYNAMIC) {\n // Only for dynamic bodies\n const f = bi.force;\n const m = bi.mass;\n f.x += m * gx;\n f.y += m * gy;\n f.z += m * gz;\n }\n } // Update subsystems\n\n\n for (let i = 0, Nsubsystems = this.subsystems.length; i !== Nsubsystems; i++) {\n this.subsystems[i].update();\n } // Collision detection\n\n\n if (doProfiling) {\n profilingStart = performance.now();\n }\n\n p1.length = 0; // Clean up pair arrays from last step\n\n p2.length = 0;\n this.broadphase.collisionPairs(this, p1, p2);\n\n if (doProfiling) {\n profile.broadphase = performance.now() - profilingStart;\n } // Remove constrained pairs with collideConnected == false\n\n\n let Nconstraints = constraints.length;\n\n for (i = 0; i !== Nconstraints; i++) {\n const c = constraints[i];\n\n if (!c.collideConnected) {\n for (let j = p1.length - 1; j >= 0; j -= 1) {\n if (c.bodyA === p1[j] && c.bodyB === p2[j] || c.bodyB === p1[j] && c.bodyA === p2[j]) {\n p1.splice(j, 1);\n p2.splice(j, 1);\n }\n }\n }\n }\n\n this.collisionMatrixTick(); // Generate contacts\n\n if (doProfiling) {\n profilingStart = performance.now();\n }\n\n const oldcontacts = World_step_oldContacts;\n const NoldContacts = contacts.length;\n\n for (i = 0; i !== NoldContacts; i++) {\n oldcontacts.push(contacts[i]);\n }\n\n contacts.length = 0; // Transfer FrictionEquation from current list to the pool for reuse\n\n const NoldFrictionEquations = this.frictionEquations.length;\n\n for (i = 0; i !== NoldFrictionEquations; i++) {\n frictionEquationPool.push(this.frictionEquations[i]);\n }\n\n this.frictionEquations.length = 0;\n this.narrowphase.getContacts(p1, p2, this, contacts, oldcontacts, // To be reused\n this.frictionEquations, frictionEquationPool);\n\n if (doProfiling) {\n profile.narrowphase = performance.now() - profilingStart;\n } // Loop over all collisions\n\n\n if (doProfiling) {\n profilingStart = performance.now();\n } // Add all friction eqs\n\n\n for (i = 0; i < this.frictionEquations.length; i++) {\n solver.addEquation(this.frictionEquations[i]);\n }\n\n const ncontacts = contacts.length;\n\n for (let k = 0; k !== ncontacts; k++) {\n // Current contact\n const c = contacts[k]; // Get current collision indeces\n\n const bi = c.bi;\n const bj = c.bj;\n const si = c.si;\n const sj = c.sj; // Get collision properties\n\n let cm;\n\n if (bi.material && bj.material) {\n cm = this.getContactMaterial(bi.material, bj.material) || this.defaultContactMaterial;\n } else {\n cm = this.defaultContactMaterial;\n } // c.enabled = bi.collisionResponse && bj.collisionResponse && si.collisionResponse && sj.collisionResponse;\n\n\n cm.friction; // c.restitution = cm.restitution;\n // If friction or restitution were specified in the material, use them\n\n if (bi.material && bj.material) {\n if (bi.material.friction >= 0 && bj.material.friction >= 0) {\n bi.material.friction * bj.material.friction;\n }\n\n if (bi.material.restitution >= 0 && bj.material.restitution >= 0) {\n c.restitution = bi.material.restitution * bj.material.restitution;\n }\n } // c.setSpookParams(\n // cm.contactEquationStiffness,\n // cm.contactEquationRelaxation,\n // dt\n // );\n\n\n solver.addEquation(c); // // Add friction constraint equation\n // if(mu > 0){\n // \t// Create 2 tangent equations\n // \tconst mug = mu * gnorm;\n // \tconst reducedMass = (bi.invMass + bj.invMass);\n // \tif(reducedMass > 0){\n // \t\treducedMass = 1/reducedMass;\n // \t}\n // \tconst pool = frictionEquationPool;\n // \tconst c1 = pool.length ? pool.pop() : new FrictionEquation(bi,bj,mug*reducedMass);\n // \tconst c2 = pool.length ? pool.pop() : new FrictionEquation(bi,bj,mug*reducedMass);\n // \tthis.frictionEquations.push(c1, c2);\n // \tc1.bi = c2.bi = bi;\n // \tc1.bj = c2.bj = bj;\n // \tc1.minForce = c2.minForce = -mug*reducedMass;\n // \tc1.maxForce = c2.maxForce = mug*reducedMass;\n // \t// Copy over the relative vectors\n // \tc1.ri.copy(c.ri);\n // \tc1.rj.copy(c.rj);\n // \tc2.ri.copy(c.ri);\n // \tc2.rj.copy(c.rj);\n // \t// Construct tangents\n // \tc.ni.tangents(c1.t, c2.t);\n // // Set spook params\n // c1.setSpookParams(cm.frictionEquationStiffness, cm.frictionEquationRelaxation, dt);\n // c2.setSpookParams(cm.frictionEquationStiffness, cm.frictionEquationRelaxation, dt);\n // c1.enabled = c2.enabled = c.enabled;\n // \t// Add equations to solver\n // \tsolver.addEquation(c1);\n // \tsolver.addEquation(c2);\n // }\n\n if (bi.allowSleep && bi.type === Body.DYNAMIC && bi.sleepState === Body.SLEEPING && bj.sleepState === Body.AWAKE && bj.type !== Body.STATIC) {\n const speedSquaredB = bj.velocity.lengthSquared() + bj.angularVelocity.lengthSquared();\n const speedLimitSquaredB = bj.sleepSpeedLimit ** 2;\n\n if (speedSquaredB >= speedLimitSquaredB * 2) {\n bi.wakeUpAfterNarrowphase = true;\n }\n }\n\n if (bj.allowSleep && bj.type === Body.DYNAMIC && bj.sleepState === Body.SLEEPING && bi.sleepState === Body.AWAKE && bi.type !== Body.STATIC) {\n const speedSquaredA = bi.velocity.lengthSquared() + bi.angularVelocity.lengthSquared();\n const speedLimitSquaredA = bi.sleepSpeedLimit ** 2;\n\n if (speedSquaredA >= speedLimitSquaredA * 2) {\n bj.wakeUpAfterNarrowphase = true;\n }\n } // Now we know that i and j are in contact. Set collision matrix state\n\n\n this.collisionMatrix.set(bi, bj, true);\n\n if (!this.collisionMatrixPrevious.get(bi, bj)) {\n // First contact!\n // We reuse the collideEvent object, otherwise we will end up creating new objects for each new contact, even if there's no event listener attached.\n World_step_collideEvent.body = bj;\n World_step_collideEvent.contact = c;\n bi.dispatchEvent(World_step_collideEvent);\n World_step_collideEvent.body = bi;\n bj.dispatchEvent(World_step_collideEvent);\n }\n\n this.bodyOverlapKeeper.set(bi.id, bj.id);\n this.shapeOverlapKeeper.set(si.id, sj.id);\n }\n\n this.emitContactEvents();\n\n if (doProfiling) {\n profile.makeContactConstraints = performance.now() - profilingStart;\n profilingStart = performance.now();\n } // Wake up bodies\n\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n\n if (bi.wakeUpAfterNarrowphase) {\n bi.wakeUp();\n bi.wakeUpAfterNarrowphase = false;\n }\n } // Add user-added constraints\n\n\n Nconstraints = constraints.length;\n\n for (i = 0; i !== Nconstraints; i++) {\n const c = constraints[i];\n c.update();\n\n for (let j = 0, Neq = c.equations.length; j !== Neq; j++) {\n const eq = c.equations[j];\n solver.addEquation(eq);\n }\n } // Solve the constrained system\n\n\n solver.solve(dt, this);\n\n if (doProfiling) {\n profile.solve = performance.now() - profilingStart;\n } // Remove all contacts from solver\n\n\n solver.removeAllEquations(); // Apply damping, see http://code.google.com/p/bullet/issues/detail?id=74 for details\n\n const pow = Math.pow;\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n\n if (bi.type & DYNAMIC) {\n // Only for dynamic bodies\n const ld = pow(1.0 - bi.linearDamping, dt);\n const v = bi.velocity;\n v.scale(ld, v);\n const av = bi.angularVelocity;\n\n if (av) {\n const ad = pow(1.0 - bi.angularDamping, dt);\n av.scale(ad, av);\n }\n }\n }\n\n this.dispatchEvent(World_step_preStepEvent); // Invoke pre-step callbacks\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n\n if (bi.preStep) {\n bi.preStep.call(bi);\n }\n } // Leap frog\n // vnew = v + h*f/m\n // xnew = x + h*vnew\n\n\n if (doProfiling) {\n profilingStart = performance.now();\n }\n\n const stepnumber = this.stepnumber;\n const quatNormalize = stepnumber % (this.quatNormalizeSkip + 1) === 0;\n const quatNormalizeFast = this.quatNormalizeFast;\n\n for (i = 0; i !== N; i++) {\n bodies[i].integrate(dt, quatNormalize, quatNormalizeFast);\n }\n\n this.clearForces();\n this.broadphase.dirty = true;\n\n if (doProfiling) {\n profile.integrate = performance.now() - profilingStart;\n } // Update step number\n\n\n this.stepnumber += 1;\n this.dispatchEvent(World_step_postStepEvent); // Invoke post-step callbacks\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n const postStep = bi.postStep;\n\n if (postStep) {\n postStep.call(bi);\n }\n } // Sleeping update\n\n\n let hasActiveBodies = true;\n\n if (this.allowSleep) {\n hasActiveBodies = false;\n\n for (i = 0; i !== N; i++) {\n const bi = bodies[i];\n bi.sleepTick(this.time);\n\n if (bi.sleepState !== Body.SLEEPING) {\n hasActiveBodies = true;\n }\n }\n }\n\n this.hasActiveBodies = hasActiveBodies;\n }\n\n emitContactEvents() {\n const hasBeginContact = this.hasAnyEventListener('beginContact');\n const hasEndContact = this.hasAnyEventListener('endContact');\n\n if (hasBeginContact || hasEndContact) {\n this.bodyOverlapKeeper.getDiff(additions, removals);\n }\n\n if (hasBeginContact) {\n for (let i = 0, l = additions.length; i < l; i += 2) {\n beginContactEvent.bodyA = this.getBodyById(additions[i]);\n beginContactEvent.bodyB = this.getBodyById(additions[i + 1]);\n this.dispatchEvent(beginContactEvent);\n }\n\n beginContactEvent.bodyA = beginContactEvent.bodyB = null;\n }\n\n if (hasEndContact) {\n for (let i = 0, l = removals.length; i < l; i += 2) {\n endContactEvent.bodyA = this.getBodyById(removals[i]);\n endContactEvent.bodyB = this.getBodyById(removals[i + 1]);\n this.dispatchEvent(endContactEvent);\n }\n\n endContactEvent.bodyA = endContactEvent.bodyB = null;\n }\n\n additions.length = removals.length = 0;\n const hasBeginShapeContact = this.hasAnyEventListener('beginShapeContact');\n const hasEndShapeContact = this.hasAnyEventListener('endShapeContact');\n\n if (hasBeginShapeContact || hasEndShapeContact) {\n this.shapeOverlapKeeper.getDiff(additions, removals);\n }\n\n if (hasBeginShapeContact) {\n for (let i = 0, l = additions.length; i < l; i += 2) {\n const shapeA = this.getShapeById(additions[i]);\n const shapeB = this.getShapeById(additions[i + 1]);\n beginShapeContactEvent.shapeA = shapeA;\n beginShapeContactEvent.shapeB = shapeB;\n if (shapeA) beginShapeContactEvent.bodyA = shapeA.body;\n if (shapeB) beginShapeContactEvent.bodyB = shapeB.body;\n this.dispatchEvent(beginShapeContactEvent);\n }\n\n beginShapeContactEvent.bodyA = beginShapeContactEvent.bodyB = beginShapeContactEvent.shapeA = beginShapeContactEvent.shapeB = null;\n }\n\n if (hasEndShapeContact) {\n for (let i = 0, l = removals.length; i < l; i += 2) {\n const shapeA = this.getShapeById(removals[i]);\n const shapeB = this.getShapeById(removals[i + 1]);\n endShapeContactEvent.shapeA = shapeA;\n endShapeContactEvent.shapeB = shapeB;\n if (shapeA) endShapeContactEvent.bodyA = shapeA.body;\n if (shapeB) endShapeContactEvent.bodyB = shapeB.body;\n this.dispatchEvent(endShapeContactEvent);\n }\n\n endShapeContactEvent.bodyA = endShapeContactEvent.bodyB = endShapeContactEvent.shapeA = endShapeContactEvent.shapeB = null;\n }\n }\n /**\n * Sets all body forces in the world to zero.\n */\n\n\n clearForces() {\n const bodies = this.bodies;\n const N = bodies.length;\n\n for (let i = 0; i !== N; i++) {\n const b = bodies[i];\n b.force;\n b.torque;\n b.force.set(0, 0, 0);\n b.torque.set(0, 0, 0);\n }\n }\n\n} // Temp stuff\n\nnew AABB();\nconst tmpRay = new Ray(); // performance.now() fallback on Date.now()\n\nconst performance = globalThis.performance || {};\n\nif (!performance.now) {\n let nowOffset = Date.now();\n\n if (performance.timing && performance.timing.navigationStart) {\n nowOffset = performance.timing.navigationStart;\n }\n\n performance.now = () => Date.now() - nowOffset;\n}\n// Reusable event objects to save memory.\n\nconst World_step_postStepEvent = {\n type: 'postStep'\n}; // Dispatched before the world steps forward in time.\n\nconst World_step_preStepEvent = {\n type: 'preStep'\n};\nconst World_step_collideEvent = {\n type: Body.COLLIDE_EVENT_NAME,\n body: null,\n contact: null\n}; // Pools for unused objects\n\nconst World_step_oldContacts = [];\nconst World_step_frictionEquationPool = []; // Reusable arrays for collision pairs\n\nconst World_step_p1 = [];\nconst World_step_p2 = []; // Stuff for emitContactEvents\n\nconst additions = [];\nconst removals = [];\nconst beginContactEvent = {\n type: 'beginContact',\n bodyA: null,\n bodyB: null\n};\nconst endContactEvent = {\n type: 'endContact',\n bodyA: null,\n bodyB: null\n};\nconst beginShapeContactEvent = {\n type: 'beginShapeContact',\n bodyA: null,\n bodyB: null,\n shapeA: null,\n shapeB: null\n};\nconst endShapeContactEvent = {\n type: 'endShapeContact',\n bodyA: null,\n bodyB: null,\n shapeA: null,\n shapeB: null\n};\n\nexport { AABB, ArrayCollisionMatrix, BODY_SLEEP_STATES, BODY_TYPES, Body, Box, Broadphase, COLLISION_TYPES, ConeTwistConstraint, Constraint, ContactEquation, ContactMaterial, ConvexPolyhedron, Cylinder, DistanceConstraint, Equation, EventTarget, FrictionEquation, GSSolver, GridBroadphase, Heightfield, HingeConstraint, JacobianElement, LockConstraint, Mat3, Material, NaiveBroadphase, Narrowphase, ObjectCollisionMatrix, Particle, Plane, PointToPointConstraint, Pool, Quaternion, RAY_MODES, Ray, RaycastResult, RaycastVehicle, RigidVehicle, RotationalEquation, RotationalMotorEquation, SAPBroadphase, SHAPE_TYPES, SPHSystem, Shape, Solver, Sphere, SplitSolver, Spring, Transform, Trimesh, Vec3, Vec3Pool, WheelInfo, World };\n","import * as RE from 'rogue-engine';\nimport * as THREE from 'three';\n\nexport default class Animator extends RE.Component {\n @RE.props.list.animation() animations: THREE.AnimationClip[] = [];\n\n private _curAnimations: THREE.AnimationClip[] = [];\n\n @RE.props.data()\n data: any[] = [];\n\n private animationsHaveChanged() {\n if (this._curAnimations.length !== this.animations.length) return true;\n\n for (let i = 0; i < this._curAnimations.length; i++) {\n if (this._curAnimations[i] !== this.animations[i]) return true;\n }\n\n return false;\n }\n\n private updateConfigs() {\n const newConfigs: any[] = [];\n\n for (let i = 0; i < this.animations.length; i++) {\n if (this.data[i]) {\n newConfigs[i] = this.data[i];\n continue;\n }\n\n newConfigs[i] = {\n actionName: i.toString(),\n playOnce: false,\n maxWeight: 1,\n duration: 1,\n speed: 1,\n };\n }\n\n this._curAnimations = this.animations.slice();\n\n this.data.splice(0);\n newConfigs.forEach(config => this.data.push(config));\n\n // this.activeAction && this.activeAction.reset();\n\n this._mixer = this._mixer = new THREE.AnimationMixer(this.object3d);\n this.animations.forEach((clip, i) => {\n const action = this._mixer.clipAction(clip);\n clip.name = this.data[i].actionName;\n this.data[i].playOnce && action.setLoop(THREE.LoopOnce, 0);\n this.actions[this.data[i].actionName] = {action, config: this.data[i]};\n });\n }\n\n private _selected = 0;\n\n @RE.props.select()\n get selected() {\n this.selectedOptions.splice(0, this.selectedOptions.length, ...this.animations.map((_, i) => i.toString() ));\n this.isReady && this.animationsHaveChanged() && this.updateConfigs();\n\n return this._selected;\n }\n\n editorUpdate: {stop: () => void} | undefined;\n\n set selected(value: number) {\n this._selected = value;\n this.updateAnimationConfigInputs();\n // this.activeAction && this.activeAction.reset();\n this.animationsHaveChanged() && this.updateConfigs();\n if (this.playLabel === \"Stop\" && !RE.Runtime.isRunning) {\n this.playAction();\n }\n }\n\n private updateAnimationConfigInputs() {\n this.data = this.data;\n const activeConfig = this.data[this._selected];\n this.actionName = activeConfig.actionName;\n this.playOnce = activeConfig.playOnce;\n this.duration = activeConfig.duration;\n this.speed = activeConfig.speed;\n }\n\n selectedOptions: string[] = this.animations.map((elem, i) => i.toString() );\n\n @RE.props.text()\n get actionName() {\n const activeConfig = this.data[this.selected];\n\n return activeConfig ? activeConfig.actionName : \"\";\n }\n\n set actionName(value: string) {\n if (this.selected < 0) return;\n const activeConfig = this.data[this.selected];\n\n if (!activeConfig) return;\n\n activeConfig.actionName = value;\n }\n\n @RE.props.checkbox()\n get playOnce() {\n const activeConfig = this.data[this.selected];\n\n return activeConfig ? activeConfig.playOnce : false;\n }\n\n set playOnce(value: boolean) {\n if (this.selected < 0) return;\n const activeConfig = this.data[this.selected];\n\n if (!activeConfig) return;\n\n activeConfig.playOnce = value;\n }\n\n @RE.props.num()\n get duration() {\n const activeConfig = this.data[this.selected];\n\n return activeConfig ? activeConfig.duration : 1;\n }\n\n set duration(value: number) {\n if (this.selected < 0) return;\n const activeConfig = this.data[this.selected];\n\n if (!activeConfig) return;\n\n activeConfig.duration = value;\n }\n\n @RE.props.num()\n get speed() {\n const activeConfig = this.data[this.selected];\n\n return activeConfig ? activeConfig.speed : 1;\n }\n\n set speed(value: number) {\n if (this.selected < 0) return;\n const activeConfig = this.data[this.selected];\n\n if (!activeConfig) return;\n\n activeConfig.speed = Number(value);\n }\n\n private stopped = false;\n private stopping = false;\n\n get isActive() {\n return !this.stopped && !this.stopping;\n }\n\n stop() {\n this.stopping = true;\n }\n\n resume() {\n this.stopped = false;\n this.stopping = false;\n }\n\n @RE.props.button()\n play() {\n if (RE.Runtime.isRunning) return;\n\n if (this.playLabel === \"Play\" && !this.editorUpdate) {\n this.mixer;\n this.animationsHaveChanged() && this.updateConfigs();\n this.playAction();\n this.editorUpdate = RE.onUpdate(sceneController => {\n if (sceneController === RE.Runtime) return;\n // this.animationsHaveChanged() && this.stopAction() && this.updateConfigs();\n this.mixer.update(sceneController.deltaTime * this.speed);\n });\n }\n\n else if (this.playLabel === \"Stop\") {\n this.playLabel = \"Play\";\n this.stopAction();\n this.editorUpdate?.stop();\n this.editorUpdate = undefined;\n }\n }\n\n private stopAction() {\n this.mixer.existingAction(this.animations[this.selected])?.reset();\n this.mixer.stopAllAction();\n }\n\n private playAction() {\n this.stopAction();\n const action = this.actions[this.actionName];\n if (!this.actions[this.actionName]) return;\n\n this.playLabel = \"Stop\";\n action.action.play();\n }\n\n playLabel = \"Play\";\n\n private _mixer: THREE.AnimationMixer;\n\n actions: {[name: string]: {action: THREE.AnimationAction, config}} = {};\n activeAction: THREE.AnimationAction;\n\n get mixer() {\n if (!this._mixer) {\n this._mixer = new THREE.AnimationMixer(this.object3d);\n this.animations.forEach((clip, i) => {\n const action = this._mixer.clipAction(clip);\n clip.name = this.data[i].actionName;\n this.data[i].playOnce && action.setLoop(THREE.LoopOnce, 0);\n this.actions[this.data[i].actionName] = {action, config: this.data[i]};\n });\n }\n\n return this._mixer;\n }\n\n awake() {\n this.editorUpdate?.stop();\n this.editorUpdate = undefined;\n }\n\n start() {\n this.mixer.existingAction(this.animations[this.selected])?.reset();\n this.mixer.stopAllAction();\n const configs = this.data;\n this.animations.forEach((clip, i) => {\n const clipConfig = configs[i];\n clipConfig.duration && (clip.duration = clipConfig.duration);\n const action = this.mixer.existingAction(clip)\n if (!action) return;\n action.play() as THREE.AnimationAction;\n clipConfig.playOnce && action.setLoop(THREE.LoopOnce, 0);\n this.setWeight(action, this.selected === i ? 1 : 0);\n });\n\n this.mixer.removeEventListener(\"finished\", this.animationFinished);\n this.mixer.addEventListener(\"finished\", this.animationFinished);\n\n this.activeAction = this.defaultAction;\n this.mix(Object.keys(this.actions)[0]);\n }\n\n update() {\n if (this.stopped) return;\n this.mixer.update(RE.Runtime.deltaTime * this.actions[this.activeAction.getClip().name].config.speed);\n }\n\n getAction(index: number | string) {\n return this.actions[index].action;\n }\n\n setWeight(action: THREE.AnimationAction, weight: number) {\n action.enabled = true;\n action.time = 0;\n action.setEffectiveTimeScale(1);\n action.setEffectiveWeight(weight);\n }\n\n getWeight(actionName: string) {\n return this.getAction(actionName).getEffectiveWeight();\n }\n\n get defaultAction() {\n return this.getAction(this.defaultActionName)\n }\n\n get defaultActionName() {\n return Object.keys(this.actions)[0];\n }\n\n private animationFinishedListeners: (() => void)[] = [];\n\n onAnimationFinished(cb: () => void) {\n this.animationFinishedListeners.push(cb);\n }\n\n private animationFinished = () => {\n if (this.stopping) {\n this.stopped = true;\n this.stopping = false;\n }\n\n this.animationFinishedListeners.forEach(listener => listener());\n\n if (this.activeAction.loop === THREE.LoopOnce && !this.activeAction.clampWhenFinished) {\n this.mix(this.defaultActionName, 0.001, false);\n }\n }\n\n mix(actionName: string, transitionTime: number = 0.1, warp = true, weight = 1) {\n const action = this.getAction(actionName);\n\n action.reset();\n this.setWeight(action, weight);\n action.crossFadeFrom(this.activeAction, transitionTime, warp);\n this.activeAction = action;\n }\n}\n\nRE.registerComponent(Animator);\n","import * as RE from 'rogue-engine';\nimport * as THREE from 'three';\nimport RaycastReceiver from './RaycastReceiver.re';\n\nexport default class BallRaycastReceiver extends RaycastReceiver {\n originalMaterial: THREE.Material\n\n @RE.props.material() highlightMaterial: THREE.Material;\n\n awake() {\n\n }\n\n start() {\n if (!this.highlightMaterial) {\n RE.Debug.logError(\"BallRaycastReceiver has no highlight material set\")\n }\n }\n\n update() {\n\n }\n\n onMouseOver(intersect): boolean {\n var currentObj = intersect.object\n this.originalMaterial = currentObj.material\n if (this.highlightMaterial) {\n currentObj.material = this.highlightMaterial\n }\n\n RE.Runtime.rogueDOMContainer.style.cursor = \"pointer\"\n return true\n\n }\n\n onMouseOut(): boolean {\n (this.object3d as any).material = this.originalMaterial\n RE.Runtime.rogueDOMContainer.style.cursor = \"default\"\n return true\n }\n}\n\nRE.registerComponent(BallRaycastReceiver);\n","import CannonBody from '@RE/BeardScript/rogue-cannon/Components/CannonBody.re';\nimport GetForwardVector from 'Assets/Library/GetForwardVector';\nimport * as CANNON from 'cannon-es';\nimport * as RE from 'rogue-engine';\nimport * as THREE from 'three'\nimport FloorCheckComponent from './FloorCheckComponent.re';\n\nexport default class CannonMovementController extends RE.Component {\n @RE.props.num() speed: number = 1\n @RE.props.num() jumpStrength: number = 3\n vectorCalculator: GetForwardVector\n bodyComponent: CannonBody\n\n awake() {\n this.bodyComponent = RE.getComponent(CannonBody, this.object3d) as CannonBody\n }\n\n start() {\n this.vectorCalculator = new GetForwardVector(RE.Runtime.camera)\n }\n\n update() {\n let direction = {x:0, y: 0, z: 0}\n if (RE.Input.keyboard.getKeyPressed(\"KeyW\")) {\n direction.x += 1\n }\n if (RE.Input.keyboard.getKeyPressed(\"KeyA\")) {\n direction.y += -1\n }\n if (RE.Input.keyboard.getKeyPressed(\"KeyS\")) {\n direction.x += -1\n }\n if (RE.Input.keyboard.getKeyPressed(\"KeyD\")) {\n direction.y += 1\n }\n if (RE.Input.keyboard.getKeyPressed(\"Space\")) {\n direction.z = 1\n }\n\n if(direction.x != 0) {\n this.moveForward(direction.x * this.speed)\n }\n if(direction.y != 0) {\n this.moveRight(direction.y * this.speed)\n }\n\n if(direction.z != 0) {\n const floorCheckComponent = RE.getComponent(FloorCheckComponent, this.object3d)\n if(floorCheckComponent) {\n if(floorCheckComponent.isOnFloor) {\n this.bodyComponent.body.applyImpulse(new CANNON.Vec3(0, this.jumpStrength, 0), new CANNON.Vec3(this.object3d.position.x, this.object3d.position.y,this.object3d.position.z))\n // this.bodyComponent.body.applyForce(new CANNON.Vec3(0,1,0).scale(this.jumpStrength))\n }\n }\n }\n }\n\n moveForward(distance) {\n let scaledVelocity = new THREE.Vector3()\n scaledVelocity.addScaledVector(this.vectorCalculator.getForward(), distance)\n this.bodyComponent.body.applyForce(new CANNON.Vec3(scaledVelocity.x, scaledVelocity.y, scaledVelocity.z))\n // this.object3d.position.addScaledVector(this.vectorCalculator.getForward(), distance);\n }\n\n moveRight(distance) {\n let scaledVelocity = new THREE.Vector3()\n scaledVelocity.addScaledVector(this.vectorCalculator.getRight(), distance)\n this.bodyComponent.body.applyForce(new CANNON.Vec3(scaledVelocity.x, scaledVelocity.y, scaledVelocity.z))\n\n // this.object3d.position.addScaledVector(this.vectorCalculator.getRight(), distance);\n }\n}\n\n\n\nRE.registerComponent(CannonMovementController);\n","import * as RE from 'rogue-engine';\n\nexport default class FaceDirectionOfVelocityComponent extends RE.Component {\n awake() {\n\n }\n\n start() {\n\n }\n\n update() {\n\n }\n}\n\nRE.registerComponent(FaceDirectionOfVelocityComponent);\n ","import * as RE from 'rogue-engine'\r\nimport * as THREE from 'three'\r\n\r\nexport default class FloorCheckComponent extends RE.Component {\r\n raycaster: THREE.Raycaster\r\n down = new THREE.Vector3(0, -1, 0)\r\n @RE.props.num() near: number = 0\r\n @RE.props.num() far: number = Infinity\r\n isOnFloor: boolean = false\r\n @RE.props.num() touchingFloorDistance: number = 1\r\n childrenToFilter\r\n awake() {\r\n this.raycaster = new THREE.Raycaster(this.object3d.position, this.down, this.near, this.far)\r\n this.childrenToFilter = this.getAllChildrenUuids(this.object3d)\r\n }\r\n\r\n getAllChildrenUuids(child) {\r\n return child.children.flatMap(innerChild => {if(innerChild.children.length > 0) {return this.getAllChildrenUuids(innerChild)} return innerChild.uuid})\r\n }\r\n start() {\r\n\r\n }\r\n\r\n update() {\r\n this.raycaster.set(this.object3d.position, this.down)\r\n\r\n this.isOnFloor = false\r\n let intersects = this.raycaster.intersectObjects(RE.App.currentScene.children)\r\n const notMeIntersects = intersects.filter((intersect) => {\r\n return !this.childrenToFilter.includes(intersect.object.uuid)\r\n })\r\n notMeIntersects.forEach(intersect => {\r\n this.isOnFloor = this.isOnFloor || intersect.distance <= this.touchingFloorDistance\r\n })\r\n }\r\n}\r\n\r\nRE.registerComponent(FloorCheckComponent);\r\n","import * as RE from 'rogue-engine';\nimport RaycastReceiver from './RaycastReceiver.re';\n\nexport default class FloorRaycastReceiver extends RaycastReceiver {\n awake() {\n\n }\n\n start() {\n\n }\n\n update() {\n\n }\n\n onMouseOver(intersect):boolean {\n let positionOnObject = {x: (intersect.uv.x - 0.5) * intersect.object.geometry.parameters.width, z:-(intersect.uv.y - 0.5) * intersect.object.geometry.parameters.depth}\n const targetSelector = RE.App.currentScene.getObjectByName(\"GridTarget\")\n if(!targetSelector) {\n return true\n }\n\n targetSelector.position.setX(Math.floor(positionOnObject.x) + 0.5)\n targetSelector.position.setY(0)\n targetSelector.position.setZ(Math.floor(positionOnObject.z) + 0.5)\n return true\n\n }\n\n onMouseOut():boolean{\n return true\n }\n}\n\nRE.registerComponent(FloorRaycastReceiver);\n","import * as RE from 'rogue-engine'\r\nimport * as THREE from 'three'\r\n\r\nexport default class GameLogic extends RE.Component {\r\n @RE.props.list.prefab() buildings: Array<RE.Prefab>;\r\n placementMode: number = 3\r\n focusPoint: THREE.Object3D | undefined\r\n awake() {\r\n\r\n }\r\n\r\n start() {\r\n for(let i = 0; i < 100; i++) {\r\n const newBuilding = this.buildings[Math.floor(3 * Math.random())].instantiate()\r\n const randomPosition = new THREE.Vector3(Math.floor(98 * Math.random()) - 49, 0.1,Math.floor(98 * Math.random()) - 49)\r\n newBuilding.position.copy(randomPosition)\r\n }\r\n\r\n this.focusPoint = RE.App.currentScene.getObjectByName(\"FocusPoint\")\r\n }\r\n\r\n update() {\r\n // if(RE.Input.keyboard.getKeyDown(\"Digit1\")) {\r\n // this.placementMode = 3\r\n // }\r\n // if(RE.Input.keyboard.getKeyDown(\"Digit2\")) {\r\n // this.placementMode = 0\r\n // }\r\n // if(RE.Input.keyboard.getKeyDown(\"Digit3\")) {\r\n // this.placementMode = 1\r\n // }\r\n // if(RE.Input.keyboard.getKeyDown(\"Digit4\")) {\r\n // this.placementMode = 2\r\n // }\r\n\r\n // if(RE.Input.mouse.getButtonDown(0)) {\r\n // const targetSelector = RE.App.currentScene.getObjectByName(\"GridTarget\")\r\n // if(!targetSelector) {\r\n // return\r\n // }\r\n\r\n // let newBuilding = this.buildings[this.placementMode].instantiate()\r\n // newBuilding.position.set(targetSelector.position.x, 0, targetSelector.position.z)\r\n // }\r\n }\r\n}\r\n\r\nRE.registerComponent(GameLogic);\r\n","import GetForwardVector from 'Assets/Library/GetForwardVector';\nimport * as RE from 'rogue-engine';\nimport * as THREE from 'three'\n\nexport default class MovementController extends RE.Component {\n @RE.props.num() speed: number = 1\n vectorCalculator: GetForwardVector\n\n awake() {\n\n }\n\n start() {\n this.vectorCalculator = new GetForwardVector(RE.Runtime.camera)\n }\n\n update() {\n if (RE.Input.keyboard.getKeyPressed(\"KeyW\")) {\n this.moveForward(1 * this.speed)\n }\n if (RE.Input.keyboard.getKeyPressed(\"KeyA\")) {\n this.moveRight(-1* this.speed)\n }\n if (RE.Input.keyboard.getKeyPressed(\"KeyS\")) {\n this.moveForward(-1* this.speed)\n }\n if (RE.Input.keyboard.getKeyPressed(\"KeyD\")) {\n this.moveRight(1* this.speed)\n }\n }\n\n moveForward(distance) {\n this.object3d.position.addScaledVector(this.vectorCalculator.getForward(), distance);\n }\n\n moveRight(distance) {\n this.object3d.position.addScaledVector(this.vectorCalculator.getRight(), distance);\n }\n}\n\n\n\nRE.registerComponent(MovementController);\n","import GetForwardVector from 'Assets/Library/GetForwardVector';\r\nimport * as RE from 'rogue-engine';\r\nimport * as THREE from 'three'\r\nimport FloorCheckComponent from './FloorCheckComponent.re';\r\nimport RAPIER from '@dimforge/rapier3d-compat';\r\nimport RapierBody from '@RE/RogueEngine/rogue-rapier/Components/RapierBody.re';\r\n\r\nexport default class RapierMovementController extends RE.Component {\r\n @RE.props.num() speed: number = 1\r\n @RE.props.num() jumpStrength: number = 10\r\n vectorCalculator: GetForwardVector\r\n bodyComponent: RapierBody\r\n\r\n private jumpVector: RAPIER.Vector3 = new RAPIER.Vector3(0,1,0)\r\n private scaledVelocity: THREE.Vector3 = new THREE.Vector3(0,0,0)\r\n private rapierScaledVelocity: RAPIER.Vector3 = new RAPIER.Vector3(0,0,0)\r\n\r\n awake() {\r\n this.bodyComponent = RE.getComponent(RapierBody, this.object3d) as RapierBody\r\n }\r\n\r\n start() {\r\n this.vectorCalculator = new GetForwardVector(RE.Runtime.camera)\r\n }\r\n\r\n update() {\r\n let direction = {x:0, y: 0, z: 0}\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyW\")) {\r\n direction.x += 1\r\n }\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyA\")) {\r\n direction.y += -1\r\n }\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyS\")) {\r\n direction.x += -1\r\n }\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyD\")) {\r\n direction.y += 1\r\n }\r\n if (RE.Input.keyboard.getKeyPressed(\"Space\")) {\r\n direction.z = 1\r\n }\r\n\r\n if(direction.x != 0) {\r\n this.moveForward(direction.x * this.speed)\r\n }\r\n if(direction.y != 0) {\r\n this.moveRight(direction.y * this.speed)\r\n }\r\n\r\n if(direction.z != 0) {\r\n const floorCheckComponent = RE.getComponent(FloorCheckComponent, this.object3d)\r\n if(floorCheckComponent) {\r\n if(floorCheckComponent.isOnFloor) {\r\n this.jumpVector.y = this.jumpStrength\r\n this.bodyComponent.body.applyImpulse(this.jumpVector, true)\r\n }\r\n }\r\n }\r\n }\r\n\r\n moveForward(distance) {\r\n this.scaledVelocity.set(0,0,0)\r\n this.scaledVelocity.addScaledVector(this.vectorCalculator.getForward(), distance)\r\n this.rapierScaledVelocity.x = this.scaledVelocity.x\r\n this.rapierScaledVelocity.y = this.scaledVelocity.y\r\n this.rapierScaledVelocity.z = this.scaledVelocity.z\r\n \r\n this.bodyComponent.body.applyImpulse(this.rapierScaledVelocity, true)\r\n }\r\n\r\n moveRight(distance) {\r\n this.scaledVelocity.set(0,0,0)\r\n this.scaledVelocity.addScaledVector(this.vectorCalculator.getRight(), distance)\r\n this.rapierScaledVelocity.x = this.scaledVelocity.x\r\n this.rapierScaledVelocity.y = this.scaledVelocity.y\r\n this.rapierScaledVelocity.z = this.scaledVelocity.z\r\n this.bodyComponent.body.applyImpulse(this.rapierScaledVelocity, true)\r\n }\r\n}\r\n\r\n\r\n\r\nRE.registerComponent(RapierMovementController);\r\n","import * as RE from 'rogue-engine';\n\nexport default class RaycastReceiver extends RE.Component {\n onMouseOver(intersect):boolean {\n throw new Error(\"Abstract class: Please inherit from this class to use it's behavior\")\n }\n\n onMouseOut():boolean{\n throw new Error(\"Abstract class: Please inherit from this class to use it's behavior\")\n }\n}\n\nRE.registerComponent(RaycastReceiver);","import * as RE from 'rogue-engine';\nimport * as THREE from 'three'\nimport RaycastReceiver from './RaycastReceiver.re';\n\nexport default class RaycastReporter extends RE.Component {\n\t// @RE.Prop(\"Select\") something;\n\t// somethingOptions = [\"One\", \"Two\"]\n\tmouse: THREE.Vector2\n\traycaster: THREE.Raycaster\n\tupdated: boolean\n\n\t@RE.PropList(\"String\") receiverClass = [\"RaycastReceiver\"]\n\tallHovered: Array<DataThing> = []\n\n\tawake() {\n\n\t}\n\n\tstart() {\n\t\tthis.mouse = new THREE.Vector2(0, 0)\n\t\tthis.raycaster = new THREE.Raycaster()\n\t\tthis.updated = false\n\t\tRE.Input.touch.enabled = true\n\t}\n\n\tnormalizeScreenInput(browserVector, gameVector) {\n\t\tconst bounds = RE.Runtime.rogueDOMContainer.getBoundingClientRect();\n\t\tgameVector.x = ((browserVector.x - bounds.left) / bounds.width) * 2 - 1;\n\t\tgameVector.y = -((browserVector.y - bounds.top) / bounds.height) * 2 + 1\n\t}\n\n\tgetMouseInput() {\n\t\tif (!RE.Input.mouse.isMoving) {\n\t\t\treturn\n\t\t}\n\t\tthis.normalizeScreenInput(RE.Input.mouse, this.mouse)\n\t\tthis.updated = true\n\t}\n\n\tgetTouchInput() {\n\t\tif (RE.Input.touch.touches.length == 0) {\n\t\t\treturn\n\t\t}\n\n\t\tthis.normalizeScreenInput(RE.Input.touch.touches[0], this.mouse)\n\t\tthis.updated = true\n\n\t}\n\n\tupdate() {\n\t\tthis.updated = false\n\t\tthis.getMouseInput()\n\t\tthis.getTouchInput()\n\n\t\tif (!this.updated) {\n\t\t\treturn\n\t\t}\n\n\t\tthis.raycaster.setFromCamera(this.mouse, this.object3d as THREE.Camera)\n\n\t\tlet intersects = this.raycaster.intersectObjects(RE.App.currentScene.children)\n\n\t\tlet listeningComponents: Array<DataThing> = []\n\n\t\tintersects.forEach(intersect => {\n\t\t\tlet object3d = RE.App.currentScene.getObjectByProperty('uuid', intersect.object.uuid)\n\t\t\tif (object3d == null) {\n\t\t\t\tconsole.error(\"Could not find object in current scene\")\n\t\t\t\treturn\n\t\t\t}\n\t\t\tlet component = this.crawlSceneToFindReceiver(object3d)\n\n\t\t\tif (component == null) {\n\t\t\t\treturn\n\t\t\t}\n\n\t\t\tlisteningComponents = listeningComponents.filter((dataThing) => {\n\t\t\t\tif (component == null) {\n\t\t\t\t\treturn\n\t\t\t\t}\n\t\t\t\tdataThing.component.object3d.uuid != component.object3d.uuid\n\t\t\t})\n\t\t\tlisteningComponents.push(new DataThing(component, intersect))\n\t\t})\n\n\t\t//unhover all previously hovered components\n\t\tfor (let i = 0; i < this.allHovered.length; i++) {\n\t\t\tlet dataThing = this.allHovered[i]\n\t\t\tif (!listeningComponents.includes(dataThing)) {\n\t\t\t\tdataThing.component.onMouseOut()\n\t\t\t}\n\t\t}\n\n\t\tthis.allHovered = []\n\n\t\tfor (let i = 0; i < listeningComponents.length; i++) {\n\t\t\tlet dataThing = listeningComponents[i]\n\t\t\tthis.allHovered.push(dataThing)\n\t\t\tif (dataThing.component && dataThing.component.onMouseOver(dataThing.intersect) === false) {\n\t\t\t\tbreak;\n\t\t\t}\n\t\t}\n\t}\n\n\tcrawlSceneToFindReceiver(object3d): RaycastReceiver | null {\n\t\tconst component = RE.getComponent(RaycastReceiver, object3d)\n\t\tif (component != null) {\n\t\t\treturn component\n\t\t}\n\t\tif (object3d.parent == null) {\n\t\t\treturn null\n\t\t}\n\t\treturn this.crawlSceneToFindReceiver(object3d.parent)\n\t}\n}\n\nclass DataThing {\n\tcomponent: RaycastReceiver\n\tintersect: THREE.Intersection\n\tconstructor(component, intersect) {\n\t\tthis.component = component\n\t\tthis.intersect = intersect\n\t}\n}\n\nRE.registerComponent(RaycastReporter);","import * as RE from 'rogue-engine'\nimport * as THREE from 'three'\n\nexport default class GetForwardVector {\n object3d: THREE.Object3D\n private vector: THREE.Vector3 = new THREE.Vector3()\n\n constructor(object3d: THREE.Object3D) {\n this.object3d = object3d\n }\n\n getForward(): THREE.Vector3 {\t\n this.vector.set(0,0,0)\t\n if(!this.object3d) {\n RE.Debug.logError(\"No Object3D provided to get forward vector from.\")\n return this.vector\n }\n this.vector.setFromMatrixColumn( this.object3d.matrix, 0 );\n\t\tthis.vector.crossVectors( this.object3d.up, this.vector );\n\t\treturn this.vector.normalize()\n\n\t}\n\n\tgetRight():THREE.Vector3 {\n \n if(!this.object3d) {\n RE.Debug.logError(\"No Object3D provided to get right vector from.\")\n return this.vector\n }\n\n\t\tthis.vector.setFromMatrixColumn( this.object3d.matrix, 0 );\n\t\treturn this.vector.normalize()\n\t}\n}\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport * as THREE from 'three';\r\nimport * as RogueCannon from '../Lib/RogueCannon';\r\n\r\nexport default class CannonBody extends RE.Component {\r\n protected _isTrigger = false;\r\n protected _angularDamping = 0;\r\n protected _linearDamping = 0;\r\n protected _angularFactor = new THREE.Vector3(1, 1, 1);\r\n protected _linearFactor = new THREE.Vector3(1, 1, 1);\r\n protected _mass = 1;\r\n protected _useDefaultMass = true;\r\n protected _type = 0;\r\n protected typeOptions = [\r\n \"Dynamic\",\r\n \"Static\",\r\n \"Kinematic\",\r\n ];\r\n\r\n @RE.props.select()\r\n get type() {\r\n return this._type;\r\n }\r\n\r\n set type(value: number) {\r\n this._type = value;\r\n\r\n let type: CANNON.BodyType = 1;\r\n\r\n if (value === 0) type = 1;\r\n if (value === 1) type = 2;\r\n if (value === 2) type = 4;\r\n\r\n this.body && (this.body.type = type);\r\n }\r\n\r\n @RE.props.num() \r\n get angularDamping() {\r\n return this._angularDamping;\r\n }\r\n\r\n set angularDamping(value: number) {\r\n this._angularDamping = value;\r\n this.body && (this.body.angularDamping = value);\r\n }\r\n\r\n @RE.props.num()\r\n get linearDamping() {\r\n return this._linearDamping;\r\n }\r\n\r\n set linearDamping(value: number) {\r\n this._linearDamping = value;\r\n this.body && (this.body.linearDamping = value);\r\n }\r\n\r\n @RE.props.num()\r\n get mass() {\r\n return this._mass;\r\n }\r\n\r\n set mass(value: number) {\r\n this._mass = value;\r\n this.body && (this.body.mass = value);\r\n this.body && this.body.updateMassProperties();\r\n }\r\n\r\n @RE.props.vector3()\r\n get linearFactor() {\r\n return this._linearFactor;\r\n }\r\n\r\n set linearFactor(value: THREE.Vector3) {\r\n this._linearFactor = value;\r\n this.body && (this.body.linearFactor.set(value.x, value.y, value.z));\r\n }\r\n\r\n @RE.props.vector3()\r\n get angularFactor() {\r\n return this._angularFactor;\r\n }\r\n\r\n set angularFactor(value: THREE.Vector3) {\r\n this._angularFactor = value;\r\n this.body && (this.body.angularFactor.set(value.x, value.y, value.z));\r\n }\r\n\r\n @RE.props.checkbox() \r\n get isTrigger() {\r\n return this._isTrigger;\r\n }\r\n\r\n set isTrigger(value: boolean) {\r\n this._isTrigger = value;\r\n this.body && (this.body.isTrigger = value);\r\n }\r\n\r\n body: CANNON.Body;\r\n\r\n private worldPos = new THREE.Vector3();\r\n private worldRot = new THREE.Quaternion();\r\n private newBodyPos = new CANNON.Vec3();\r\n private newBodyRot = new CANNON.Quaternion();\r\n\r\n private newPos = new THREE.Vector3();\r\n private newRot = new THREE.Quaternion();\r\n private matrixA = new THREE.Matrix4();\r\n private matrixB = new THREE.Matrix4();\r\n private matrixC = new THREE.Matrix4();\r\n\r\n private onCollideCB: (event: {other: CANNON.Body, contact: CANNON.ContactEquation}) => void | undefined;\r\n\r\n private triggerCollision;\r\n\r\n static findByBody(body: CANNON.Body) {\r\n let bodyComponent: undefined | CannonBody;\r\n\r\n RE.traverseComponents(component => {\r\n if (bodyComponent) return;\r\n\r\n if (component instanceof CannonBody && component.body === body) {\r\n bodyComponent = component;\r\n }\r\n });\r\n\r\n return bodyComponent;\r\n }\r\n\r\n awake() {\r\n if (!this.body) {\r\n this.createBody();\r\n }\r\n\r\n RE.Runtime.onStop(() => {\r\n this.handleOnCollide && this.body.removeEventListener('collide', this.handleOnCollide);\r\n });\r\n }\r\n\r\n start() {\r\n RogueCannon.getWorld().addBody(this.body);\r\n this.copyObjectTransform();\r\n }\r\n\r\n onDisabled() {\r\n RogueCannon.getWorld().removeBody(this.body);\r\n }\r\n\r\n beforeUpdate() {\r\n if (this.body.mass !== this._mass) {\r\n this.mass = this._mass;\r\n }\r\n\r\n this.body && (this.body.type = this.getBodyType())\r\n\r\n this.body.type !== CANNON.BODY_TYPES.STATIC && this.updatePhysics();\r\n\r\n if (this.triggerCollision !== undefined && this.onCollideCB) {\r\n this.onCollideCB(this.triggerCollision);\r\n this.triggerCollision = undefined;\r\n }\r\n }\r\n\r\n onBeforeRemoved() {\r\n RogueCannon.getWorld().removeBody(this.body);\r\n }\r\n\r\n onCollisionEnterListeners: ((event: {other: CannonBody, contact: CANNON.ContactEquation}) => void)[] = [];\r\n onCollisionStayListeners: ((event: {other: CannonBody, contact: CANNON.ContactEquation}) => void)[] = [];\r\n onCollisionExitListeners: ((event: {other: CannonBody, contact: CANNON.ContactEquation}) => void)[] = [];\r\n\r\n onCollisionEnter(cb: (event: {other: CannonBody, contact: CANNON.ContactEquation}) => void) {\r\n this.onCollisionEnterListeners.push(cb);\r\n }\r\n\r\n onCollisionStay(cb: (event: {other: CannonBody, contact: CANNON.ContactEquation}) => void) {\r\n this.onCollisionStayListeners.push(cb);\r\n }\r\n\r\n onCollisionExit(cb: (event: {other: CannonBody, contact: CANNON.ContactEquation}) => void) {\r\n this.onCollisionExitListeners.push(cb);\r\n }\r\n\r\n onCollide(callback: (event: {other: CANNON.Body, contact: CANNON.ContactEquation}) => void) {\r\n this.onCollideCB = callback;\r\n\r\n this.body.removeEventListener('collide', this.handleOnCollide);\r\n this.body.addEventListener('collide', this.handleOnCollide);\r\n }\r\n\r\n setQuaternion(quaternion: THREE.Quaternion) {\r\n const q = quaternion;\r\n this.body.quaternion.set(q.x, q.y, q.z, q.w);\r\n }\r\n\r\n setPosition(position: THREE.Vector3) {\r\n const pos = position;\r\n this.body.position.set(pos.x, pos.y, pos.z);\r\n }\r\n\r\n private handleOnCollide = (event: {body: CANNON.Body, target: CANNON.Body, contact: CANNON.ContactEquation}) => {\r\n const bj = event.contact.bj;\r\n const bi = event.contact.bi;\r\n\r\n const collision = {\r\n other: bj !== this.body ? bj : bi,\r\n contact: event.contact,\r\n }\r\n\r\n this.triggerCollision = collision;\r\n }\r\n\r\n private getBodyType() {\r\n let type: CANNON.BodyType = 1;\r\n\r\n if (this._type === 0) type = 1;\r\n if (this._type === 1) type = 2;\r\n if (this._type === 2) type = 4;\r\n\r\n return type;\r\n }\r\n\r\n private createBody() {\r\n this.body = new CANNON.Body({\r\n type: this.getBodyType(),\r\n angularDamping: this.angularDamping,\r\n linearDamping: this.linearDamping,\r\n linearFactor: new CANNON.Vec3(this.linearFactor.x, this.linearFactor.y, this.linearFactor.z),\r\n angularFactor: new CANNON.Vec3(this.angularFactor.x, this.angularFactor.y, this.angularFactor.z),\r\n isTrigger: this.isTrigger,\r\n mass: this._mass,\r\n });\r\n\r\n this.copyObjectTransform();\r\n }\r\n\r\n protected createShape(): void {};\r\n\r\n protected copyObjectTransform() {\r\n this.object3d.parent?.updateMatrixWorld(true);\r\n\r\n this.object3d.getWorldPosition(this.worldPos);\r\n this.object3d.getWorldQuaternion(this.worldRot);\r\n\r\n this.newBodyPos.set(\r\n this.worldPos.x,\r\n this.worldPos.y,\r\n this.worldPos.z\r\n );\r\n\r\n this.newBodyRot.set(\r\n this.worldRot.x,\r\n this.worldRot.y,\r\n this.worldRot.z,\r\n this.worldRot.w\r\n );\r\n\r\n this.body.quaternion.copy(this.newBodyRot);\r\n this.body.position.copy(this.newBodyPos);\r\n }\r\n\r\n protected copyBodyTransform() {\r\n this.copyBodyPosition();\r\n this.copyBodyRotation();\r\n }\r\n\r\n private copyBodyPosition() {\r\n this.newPos.set(\r\n this.body.interpolatedPosition.x,\r\n this.body.interpolatedPosition.y,\r\n this.body.interpolatedPosition.z\r\n );\r\n \r\n if (!this.object3d.parent) return;\r\n\r\n this.object3d.parent?.worldToLocal(this.newPos);\r\n this.object3d.position.copy(this.newPos);\r\n }\r\n\r\n private copyBodyRotation() {\r\n this.newRot.set(\r\n this.body.quaternion.x,\r\n this.body.quaternion.y,\r\n this.body.quaternion.z,\r\n this.body.quaternion.w\r\n );\r\n\r\n this.matrixA.makeRotationFromQuaternion(this.newRot);\r\n this.object3d.updateMatrixWorld();\r\n this.matrixB.copy((this.object3d.parent as THREE.Object3D).matrixWorld).invert();\r\n this.matrixC.extractRotation(this.matrixB);\r\n this.matrixA.premultiply(this.matrixC);\r\n this.object3d.quaternion.setFromRotationMatrix(this.matrixA);\r\n }\r\n\r\n private updatePhysics() {\r\n this.copyBodyTransform();\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonBody);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport * as THREE from 'three';\r\nimport * as RogueCannon from '../Lib/RogueCannon';\r\nimport CannonBody from './CannonBody.re';\r\n\r\nexport default class CannonConfig extends RE.Component {\r\n private _defaultFriction = 0.01;\r\n private _defaultRestitution = 0;\r\n\r\n @RE.props.num() maxSubSteps: number = 1;\r\n\r\n @RE.props.num()\r\n get defaultFriction() {\r\n return this._defaultFriction;\r\n }\r\n\r\n set defaultFriction(value: number) {\r\n this._defaultFriction = value;\r\n RogueCannon.getWorld().defaultContactMaterial.friction = value;\r\n }\r\n\r\n @RE.props.num() \r\n get defaultRestitution() {\r\n return this._defaultRestitution;\r\n }\r\n\r\n set defaultRestitution(value: number) {\r\n this._defaultRestitution = value;\r\n RogueCannon.getWorld().defaultContactMaterial.restitution = value;\r\n }\r\n\r\n @RE.props.vector3() gravity: THREE.Vector3 = new THREE.Vector3(0, -9.82, 0);\r\n\r\n private contacts: CANNON.ContactEquation[] = [];\r\n // At the index of the body.id we hold the CannonBody with which body is colliding.\r\n // private activeCollisions: (CANNON.ContactEquation[])[] = []; \r\n private activeCollisions: {[id: string]: boolean} = {};\r\n\r\n start() {\r\n this.contacts = [];\r\n this.activeCollisions = {};\r\n\r\n CANNON.Body.idCounter = 0;\r\n CANNON.ContactEquation.idCounter = 0;\r\n CANNON.Shape.idCounter = 0;\r\n CANNON.Equation.idCounter = 0;\r\n\r\n const world = new CANNON.World()\r\n world.nextId = 0;\r\n\r\n RogueCannon.setWorld(world);\r\n RogueCannon.getWorld().gravity.set(this.gravity.x, this.gravity.y, this.gravity.z);\r\n RogueCannon.getWorld().broadphase = new CANNON.NaiveBroadphase();\r\n RogueCannon.getWorld().defaultContactMaterial.friction = this.defaultFriction;\r\n RogueCannon.getWorld().defaultContactMaterial.restitution = this.defaultRestitution;\r\n }\r\n\r\n beforeUpdate() {\r\n RogueCannon.getWorld().step(RE.Runtime.deltaTime, RE.Runtime.deltaTime, this.maxSubSteps || 1);\r\n }\r\n\r\n afterUpdate() {\r\n this.checkCollisions();\r\n }\r\n\r\n checkCollisions() {\r\n const contacts = RogueCannon.getWorld().contacts;\r\n\r\n const newContacts: CANNON.ContactEquation[] = [];\r\n\r\n contacts.forEach(contact => {\r\n newContacts[contact.id] = contact;\r\n\r\n const key1 = contact.bi.id + \"_\" + contact.bj.id;\r\n const key2 = contact.bj.id + \"_\" + contact.bi.id;\r\n\r\n const key1Collision = this.activeCollisions[key1];\r\n const key2Collision = this.activeCollisions[key2];\r\n\r\n if (!this.contacts[contact.id] && !key1Collision && !key2Collision) {\r\n this.activeCollisions[key1] = true;\r\n this.activeCollisions[key2] = true;\r\n this.sendNewCollisionEvents(contact);\r\n }\r\n });\r\n\r\n this.contacts.forEach(contact => {\r\n\r\n const key1 = contact.bi.id + \"_\" + contact.bj.id;\r\n const key2 = contact.bj.id + \"_\" + contact.bi.id;\r\n\r\n const foundActiveCollision = this.findActiveCollision(newContacts, contact);\r\n\r\n const newContact = newContacts[contact.id];\r\n\r\n if ((newContact && newContact.enabled) || foundActiveCollision) {\r\n this.sendOnCollisionStayEvents(contact);\r\n }\r\n\r\n if ((!newContact || (newContact && !newContact.enabled)) && !foundActiveCollision) {\r\n this.activeCollisions[key1] = false;\r\n this.activeCollisions[key2] = false;\r\n this.sendOnCollisionExitEvents(contact);\r\n }\r\n });\r\n\r\n this.contacts = newContacts;\r\n }\r\n\r\n private findActiveCollision(contactList: CANNON.ContactEquation[], sample: CANNON.ContactEquation) {\r\n return contactList.find(contact => {\r\n if (!contact || !contact.enabled) return false;\r\n if (contact.bi === sample.bi && contact.bj === sample.bj) return true;\r\n if (contact.bi === sample.bj && contact.bj === sample.bi) return true;\r\n\r\n return false;\r\n });\r\n }\r\n\r\n private sendOnCollisionStayEvents(contact: CANNON.ContactEquation) {\r\n const bodyA = CannonBody.findByBody(contact.bi);\r\n const bodyB = CannonBody.findByBody(contact.bj);\r\n\r\n if (!bodyB || !bodyA) return;\r\n\r\n bodyA.onCollisionStayListeners.forEach(cb => {\r\n cb({other: bodyB, contact});\r\n });\r\n\r\n bodyB.onCollisionStayListeners.forEach(cb => {\r\n cb({other: bodyA, contact});\r\n });\r\n }\r\n\r\n private sendOnCollisionExitEvents(contact: CANNON.ContactEquation) {\r\n const bodyA = CannonBody.findByBody(contact.bi);\r\n const bodyB = CannonBody.findByBody(contact.bj);\r\n\r\n if (!bodyB || !bodyA) return;\r\n\r\n bodyA.onCollisionExitListeners.forEach(cb => {\r\n cb({other: bodyB, contact});\r\n });\r\n\r\n bodyB.onCollisionExitListeners.forEach(cb => {\r\n cb({other: bodyA, contact});\r\n });\r\n }\r\n\r\n private sendNewCollisionEvents(contact: CANNON.ContactEquation) {\r\n const bodyA = CannonBody.findByBody(contact.bi);\r\n const bodyB = CannonBody.findByBody(contact.bj);\r\n\r\n if (!bodyB || !bodyA) return;\r\n\r\n bodyA.onCollisionEnterListeners.forEach(cb => {\r\n cb({other: bodyB, contact});\r\n });\r\n\r\n bodyB.onCollisionEnterListeners.forEach(cb => {\r\n cb({other: bodyA, contact});\r\n });\r\n }\r\n}\r\n\r\nRE.registerComponent( CannonConfig );\r\n","import * as RE from 'rogue-engine';\r\nimport { Object3D } from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonBody from '../CannonBody.re';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonConstraint extends RE.Component {\r\n constraint: CANNON.Constraint;\r\n targetBody: CANNON.Body;\r\n\r\n start() {\r\n this.createConstraint();\r\n }\r\n\r\n protected getCannonBodyComponent(object3d: Object3D): CannonBody {\r\n const cannonBody = RE.getComponent(CannonBody, object3d);\r\n\r\n if (!cannonBody) {\r\n throw \"CannonHinge targets must have a Cannon Body Component\"\r\n }\r\n\r\n return cannonBody;\r\n }\r\n\r\n protected createConstraint() {}\r\n\r\n onRemoved() {\r\n RogueCannon.getWorld().removeConstraint(this.constraint);\r\n }\r\n}\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonConstraint from './CannonConstraint';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\nexport default class CannonDistanceConstraint extends CannonConstraint {\r\n constraint: CANNON.DistanceConstraint;\r\n\r\n @RE.props.object3d() target: THREE.Object3D;\r\n @RE.props.num() distance: number = 1;\r\n @RE.props.num() maxForce: number = 1e6;\r\n\r\n protected createConstraint() {\r\n if (!this.target) throw \"CannonHinge requires a target\";\r\n\r\n const bodyA = this.getCannonBodyComponent(this.object3d).body;\r\n const bodyB = this.getCannonBodyComponent(this.target).body;\r\n\r\n this.constraint = new CANNON.DistanceConstraint(bodyA, bodyB, this.distance, this.maxForce);\r\n\r\n RogueCannon.getWorld().addConstraint(this.constraint);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonDistanceConstraint);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonConstraint from './CannonConstraint';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonHingeConstraint extends CannonConstraint {\r\n constraint: CANNON.HingeConstraint;\r\n\r\n @RE.props.object3d() target: THREE.Object3D;\r\n @RE.props.vector3() pivotA: THREE.Vector3 = new THREE.Vector3(0.1, 0, 0);\r\n @RE.props.vector3() axisA: THREE.Vector3 = new THREE.Vector3(0, 1, 0);\r\n @RE.props.vector3() pivotB: THREE.Vector3 = new THREE.Vector3(-1, 0, 0);\r\n @RE.props.vector3() axisB: THREE.Vector3 = new THREE.Vector3(0, 1, 0);\r\n @RE.props.checkbox() collideConnected: boolean;\r\n @RE.props.num() maxForce: number = 1e6;\r\n\r\n protected createConstraint() {\r\n if (!this.target) throw \"CannonHinge requires a target\";\r\n\r\n const bodyA = this.getCannonBodyComponent(this.object3d).body;\r\n const bodyB = this.getCannonBodyComponent(this.target).body;\r\n\r\n this.constraint = new CANNON.HingeConstraint(bodyA, bodyB, {\r\n pivotA: new CANNON.Vec3(this.pivotA.x, this.pivotA.y, this.pivotA.z),\r\n axisA: new CANNON.Vec3(this.axisA.x, this.axisA.y, this.axisA.z),\r\n pivotB: new CANNON.Vec3(this.pivotB.x, this.pivotB.y, this.pivotB.z),\r\n axisB: new CANNON.Vec3(this.axisB.x, this.axisB.y, this.axisB.z),\r\n collideConnected: this.collideConnected,\r\n maxForce: this.maxForce,\r\n });\r\n\r\n RogueCannon.getWorld().addConstraint(this.constraint);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonHingeConstraint);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport * as THREE from 'three';\r\nimport CannonConstraint from './CannonConstraint';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonLockConstraint extends CannonConstraint {\r\n constraint: CANNON.LockConstraint;\r\n\r\n @RE.props.object3d() target: THREE.Object3D;\r\n @RE.props.num() maxForce: number = 1e6;\r\n\r\n protected createConstraint() {\r\n if (!this.target) throw \"CannonHinge requires a target\";\r\n\r\n const bodyA = this.getCannonBodyComponent(this.object3d).body;\r\n const bodyB = this.getCannonBodyComponent(this.target).body;\r\n\r\n this.constraint = new CANNON.LockConstraint(bodyA, bodyB, {\r\n maxForce: this.maxForce\r\n });\r\n\r\n RogueCannon.getWorld().addConstraint(this.constraint);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonLockConstraint);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonConstraint from './CannonConstraint';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonPointToPointConstraint extends CannonConstraint {\r\n constraint: CANNON.PointToPointConstraint;\r\n\r\n @RE.props.object3d() target: THREE.Object3D;\r\n @RE.props.vector3() privotA: THREE.Vector3 = new THREE.Vector3();\r\n @RE.props.vector3() privotB: THREE.Vector3 = new THREE.Vector3();\r\n @RE.props.num() maxForce: number = 1e6;\r\n\r\n protected createConstraint() {\r\n if (!this.target) throw \"CannonHinge requires a target\";\r\n\r\n const bodyA = this.getCannonBodyComponent(this.object3d).body;\r\n const bodyB = this.getCannonBodyComponent(this.target).body;\r\n\r\n this.constraint = new CANNON.PointToPointConstraint(\r\n bodyA,\r\n new CANNON.Vec3(this.privotA.x, this.privotA.y, this.privotA.z),\r\n bodyB,\r\n new CANNON.Vec3(this.privotB.x, this.privotB.y, this.privotB.z),\r\n this.maxForce\r\n );\r\n\r\n RogueCannon.getWorld().addConstraint(this.constraint);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonPointToPointConstraint);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonBody from '../CannonBody.re';\r\n\r\nexport default class CannonSimpleCharacterController extends RE.Component {\r\n @RE.props.num() fwdSpeed = 3;\r\n @RE.props.num() jumpSpeed = 5;\r\n\r\n rigidbody: CannonBody | undefined;\r\n canJump = false;\r\n\r\n private contactNormal = new CANNON.Vec3();\r\n private upAxis = new CANNON.Vec3(0, 1, 0);\r\n\r\n private inputAngularVelocity = new CANNON.Vec3();\r\n private inputVelocity = new CANNON.Vec3();\r\n\r\n awake() {\r\n this.rigidbody = RE.getComponent(CannonBody, this.object3d);\r\n // this.stick = RE.getComponent(TouchStick, this.object3d);\r\n this.rigidbody?.onCollide(event => {\r\n event.contact.ni.negate(this.contactNormal);\r\n\r\n if (this.contactNormal.dot(this.upAxis) > 0.5) {\r\n this.canJump = true\r\n }\r\n });\r\n\r\n if (!this.rigidbody) return;\r\n\r\n this.rigidbody.body.type = CANNON.Body.DYNAMIC;\r\n }\r\n\r\n update() {\r\n if (!this.rigidbody) return;\r\n\r\n this.inputVelocity.setZero();\r\n\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyW\")) {\r\n this.inputVelocity.z = -1;\r\n }\r\n else if (RE.Input.keyboard.getKeyPressed(\"KeyS\")) {\r\n this.inputVelocity.z = 1;\r\n }\r\n else {\r\n this.inputVelocity.z = 0;\r\n }\r\n \r\n if (RE.Input.keyboard.getKeyPressed(\"KeyA\")) {\r\n this.inputVelocity.x = -1;\r\n }\r\n else if (RE.Input.keyboard.getKeyPressed(\"KeyD\")) {\r\n this.inputVelocity.x = 1;\r\n }\r\n else {\r\n this.inputVelocity.x = 0;\r\n }\r\n\r\n this.inputVelocity.normalize();\r\n this.inputVelocity.scale(this.fwdSpeed, this.inputVelocity);\r\n\r\n if (this.canJump && RE.Input.keyboard.getKeyDown(\"Space\")) {\r\n this.rigidbody.body.velocity.y = this.jumpSpeed;\r\n this.canJump = false;\r\n }\r\n\r\n this.rigidbody.body.angularVelocity.y = this.inputAngularVelocity.y;\r\n\r\n this.rigidbody.body.vectorToWorldFrame(this.inputVelocity, this.inputVelocity);\r\n\r\n if (!this.canJump) return;\r\n\r\n this.rigidbody.body.velocity.x = this.inputVelocity.x;\r\n this.rigidbody.body.velocity.z = this.inputVelocity.z;\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonSimpleCharacterController);\r\n","import * as RE from 'rogue-engine';\r\nimport CannonRaycastVehicle from '../Objects/CannonRaycastVehicle.re';\r\n\r\nexport default class CannonVehicleController extends RE.Component {\r\n @RE.props.num() maxForce = 200;\r\n @RE.props.num() reverseForce = 50;\r\n @RE.props.num() breakForce = 250;\r\n @RE.props.num() maxSteering = 0.5;\r\n\r\n raycastVehicle: CannonRaycastVehicle;\r\n\r\n start() {\r\n this.raycastVehicle = RE.getComponentByName(\"CannonRaycastVehicle\", this.object3d) as CannonRaycastVehicle;\r\n }\r\n\r\n update() {\r\n if (!(this.raycastVehicle instanceof CannonRaycastVehicle)) return;\r\n\r\n // Acceleration\r\n\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyW\")) {\r\n this.releaseBreaks();\r\n this.raycastVehicle.vehicle.applyEngineForce(this.maxForce, 2);\r\n this.raycastVehicle.vehicle.applyEngineForce(this.maxForce, 3);\r\n }\r\n\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyS\")) {\r\n const speed = -this.raycastVehicle.vehicle.currentVehicleSpeedKmHour;\r\n\r\n if (speed <= 0 ) {\r\n this.releaseBreaks();\r\n this.raycastVehicle.vehicle.applyEngineForce(-this.reverseForce, 2);\r\n this.raycastVehicle.vehicle.applyEngineForce(-this.reverseForce, 3);\r\n }\r\n\r\n else if (speed > 0.05) {\r\n // this.releaseBreaks();\r\n this.raycastVehicle.vehicle.applyEngineForce(-this.maxForce, 2);\r\n this.raycastVehicle.vehicle.applyEngineForce(-this.maxForce, 3);\r\n // this.break();\r\n }\r\n\r\n // else if (speed > 0.1) {\r\n // this.break();\r\n // }\r\n }\r\n\r\n if (RE.Input.keyboard.getKeyUp(\"KeyW\")) {\r\n this.raycastVehicle.vehicle.applyEngineForce(0, 2);\r\n this.raycastVehicle.vehicle.applyEngineForce(0, 3);\r\n }\r\n\r\n if (RE.Input.keyboard.getKeyUp(\"KeyS\")) {\r\n const speed = Math.abs(this.raycastVehicle.vehicle.currentVehicleSpeedKmHour);\r\n\r\n this.raycastVehicle.vehicle.applyEngineForce(0, 2);\r\n this.raycastVehicle.vehicle.applyEngineForce(0, 3);\r\n\r\n if (speed < 1) {\r\n this.break();\r\n }\r\n else {\r\n this.releaseBreaks();\r\n }\r\n }\r\n\r\n // Steering\r\n\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyA\")) {\r\n this.raycastVehicle.vehicle.setSteeringValue(this.maxSteering, 0);\r\n this.raycastVehicle.vehicle.setSteeringValue(this.maxSteering, 1);\r\n }\r\n\r\n if (RE.Input.keyboard.getKeyPressed(\"KeyD\")) {\r\n this.raycastVehicle.vehicle.setSteeringValue(-this.maxSteering, 0);\r\n this.raycastVehicle.vehicle.setSteeringValue(-this.maxSteering, 1);\r\n }\r\n\r\n if (RE.Input.keyboard.getKeyUp(\"KeyA\")) {\r\n this.raycastVehicle.vehicle.setSteeringValue(0, 0);\r\n this.raycastVehicle.vehicle.setSteeringValue(0, 1);\r\n }\r\n\r\n if (RE.Input.keyboard.getKeyUp(\"KeyD\")) {\r\n this.raycastVehicle.vehicle.setSteeringValue(0, 0);\r\n this.raycastVehicle.vehicle.setSteeringValue(0, 1);\r\n }\r\n }\r\n\r\n break() {\r\n this.raycastVehicle.vehicle.setBrake(this.breakForce, 0);\r\n this.raycastVehicle.vehicle.setBrake(this.breakForce, 1);\r\n this.raycastVehicle.vehicle.setBrake(this.breakForce, 2);\r\n this.raycastVehicle.vehicle.setBrake(this.breakForce, 3);\r\n }\r\n\r\n releaseBreaks() {\r\n this.raycastVehicle.vehicle.setBrake(0, 0);\r\n this.raycastVehicle.vehicle.setBrake(0, 1);\r\n this.raycastVehicle.vehicle.setBrake(0, 2);\r\n this.raycastVehicle.vehicle.setBrake(0, 3);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonVehicleController);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonContactMaterial extends RE.Component {\r\n contactMaterial: CANNON.ContactMaterial;\r\n\r\n @RE.props.text() materialA: string;\r\n @RE.props.text() materialB: string;\r\n @RE.props.num() friction: number;\r\n @RE.props.num() restitution: number;\r\n\r\n start() {\r\n this.createContactMaterial();\r\n }\r\n\r\n private getMaterial(materialName: string) {\r\n return RogueCannon.getWorld().materials.find(material => material.name === materialName)\r\n }\r\n\r\n private createContactMaterial() {\r\n const cannonMaterialA = this.getMaterial(this.materialA);\r\n const cannonMaterialB = this.getMaterial(this.materialB);\r\n\r\n if (!cannonMaterialA || !cannonMaterialB) return;\r\n\r\n this.contactMaterial = new CANNON.ContactMaterial(cannonMaterialA, cannonMaterialB, {\r\n friction: this.friction,\r\n restitution: this.restitution,\r\n });\r\n\r\n this.contactMaterial.friction = this.friction;\r\n this.contactMaterial.restitution = this.restitution;\r\n\r\n RogueCannon.getWorld().addContactMaterial(this.contactMaterial);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonContactMaterial);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonBody from '../CannonBody.re';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonMaterial extends RE.Component {\r\n material: CANNON.Material;\r\n\r\n @RE.props.num() friction: number;\r\n @RE.props.num() restitution: number;\r\n\r\n awake() {\r\n this.createMaterial();\r\n }\r\n\r\n start() {\r\n this.setMaterial();\r\n }\r\n\r\n protected createMaterial() {\r\n this.material = new CANNON.Material(this.name);\r\n\r\n // if (this.friction < 0)\r\n this.material.friction = this.friction;\r\n // if (this.restitution < 0)\r\n this.material.restitution = this.restitution;\r\n\r\n RogueCannon.getWorld().addMaterial(this.material);\r\n }\r\n\r\n private setMaterial() {\r\n const cannonBody = RE.getComponent(CannonBody, this.object3d);\r\n\r\n if (cannonBody) {\r\n cannonBody.body.shapes.forEach(shape => shape.material = this.material);\r\n }\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonMaterial);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonBody from '../CannonBody.re';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class SetCannonMaterial extends RE.Component {\r\n material: CANNON.Material;\r\n\r\n @RE.props.text() materialName: string;\r\n\r\n start() {\r\n this.setMaterial();\r\n }\r\n\r\n private getMaterial() {\r\n return RogueCannon.getWorld().materials.find(material => material.name === this.materialName)\r\n }\r\n\r\n private setMaterial() {\r\n const material = this.getMaterial();\r\n\r\n if (!material) return;\r\n\r\n this.material = material;\r\n\r\n const cannonBody = RE.getComponent(CannonBody, this.object3d);\r\n\r\n if (cannonBody) {\r\n cannonBody.body.shapes.forEach(shape => (shape.material = this.material));\r\n }\r\n }\r\n}\r\n\r\nRE.registerComponent(SetCannonMaterial);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonBody from '../CannonBody.re';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonRaycastVehicle extends RE.Component {\r\n @RE.props.object3d() chasis: THREE.Object3D;\r\n @RE.props.num() mass = 500;\r\n @RE.props.num() suspensionStiffness = 30;\r\n @RE.props.num() suspensionRestLength = 0.1;\r\n @RE.props.num() frictionSlip = 0.7;\r\n @RE.props.num() dampingRelaxation: 2.3;\r\n @RE.props.num() dampingCompression: 4.4;\r\n @RE.props.num() maxSuspensionForce: 100000;\r\n @RE.props.num() rollInfluence: 0.01;\r\n @RE.props.num() maxSuspensionTravel = 0.2;\r\n @RE.props.num() customSlidingRotationalSpeed = -30;\r\n @RE.props.checkbox() useCustomSlidingRotationalSpeed = true;\r\n\r\n vehicle: CANNON.RaycastVehicle;\r\n\r\n start() {\r\n if (!RogueCannon.getWorld()) return;\r\n\r\n let body = RE.getComponent(CannonBody, this.object3d);\r\n\r\n if (!body) {\r\n body = new CannonBody(\"CarBody\", this.object3d);\r\n body.mass = this.mass;\r\n RE.addComponent(body);\r\n }\r\n\r\n if (!this.chasis) return;\r\n\r\n const chassisBody = RE.getComponent(CannonBody, this.chasis);\r\n\r\n if (!(chassisBody instanceof CannonBody)) return;\r\n\r\n this.vehicle = new CANNON.RaycastVehicle({\r\n chassisBody: body.body,\r\n indexForwardAxis: 2,\r\n indexUpAxis: 1,\r\n indexRightAxis: 0,\r\n });\r\n\r\n this.vehicle.addToWorld(RogueCannon.getWorld());\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonRaycastVehicle);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonBody from '../CannonBody.re';\r\nimport * as RogueCannon from '../../Lib/RogueCannon';\r\n\r\nexport default class CannonSpring extends RE.Component {\r\n spring: CANNON.Spring;\r\n targetBody: CANNON.Body;\r\n \r\n @RE.props.object3d() target: THREE.Object3D;\r\n @RE.props.vector3() anchorA: THREE.Vector3 = new THREE.Vector3();\r\n @RE.props.vector3() anchorB: THREE.Vector3 = new THREE.Vector3();\r\n @RE.props.num() restLength: number = 0;\r\n @RE.props.num() stiffness: number = 50;\r\n @RE.props.num() damping: number = 1;\r\n\r\n start() {\r\n this.createSpring();\r\n }\r\n\r\n private getCannonBodyComponent(object3d: THREE.Object3D): CannonBody {\r\n const cannonBody = RE.getComponent(CannonBody, object3d);\r\n\r\n if (!cannonBody) {\r\n throw \"CannonSpring targets must have a Cannon Body Component\"\r\n }\r\n\r\n return cannonBody;\r\n }\r\n\r\n applyForce = () => {\r\n this.spring.applyForce();\r\n }\r\n\r\n private createSpring() {\r\n if (!this.target) throw \"CannonSpring requires a target\";\r\n\r\n const bodyA = this.getCannonBodyComponent(this.object3d).body;\r\n const bodyB = this.getCannonBodyComponent(this.target).body;\r\n\r\n this.spring = new CANNON.Spring(bodyA, bodyB, {\r\n localAnchorA: new CANNON.Vec3(this.anchorA.x, this.anchorA.y, this.anchorA.z),\r\n localAnchorB: new CANNON.Vec3(this.anchorB.x, this.anchorB.y, this.anchorB.z),\r\n restLength: this.restLength,\r\n stiffness: this.stiffness,\r\n damping: this.damping,\r\n });\r\n\r\n RogueCannon.getWorld().addEventListener('postStep', this.applyForce)\r\n }\r\n\r\n onBeforeRemoved() {\r\n RogueCannon.getWorld().removeEventListener('postStep', this.applyForce);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonSpring);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonRaycastVehicle from './CannonRaycastVehicle.re';\r\n\r\nexport default class CannonWheel extends RE.Component {\r\n @RE.props.object3d() wheel: THREE.Object3D;\r\n @RE.props.num() radiusOffset = 0;\r\n\r\n connectionPoint = new THREE.Vector3(0, 0, 0);\r\n raycastVehicle: CannonRaycastVehicle;\r\n wheelInfo: CANNON.WheelInfo;\r\n\r\n private matrixA = new THREE.Matrix4();\r\n private matrixB = new THREE.Matrix4();\r\n private matrixC = new THREE.Matrix4();\r\n\r\n start() {\r\n this.raycastVehicle = RE.getComponent(CannonRaycastVehicle, this.object3d) as CannonRaycastVehicle;\r\n\r\n if (!(this.raycastVehicle instanceof CannonRaycastVehicle)) return;\r\n\r\n let radius = 0.3;\r\n\r\n if (this.wheel) {\r\n this.connectionPoint.copy(this.wheel.position);\r\n\r\n const bbox = new THREE.Box3().setFromObject(this.wheel);\r\n radius = bbox.max.x - bbox.min.x;\r\n }\r\n\r\n this.wheelInfo = new CANNON.WheelInfo({\r\n radius: radius + this.radiusOffset,\r\n directionLocal: new CANNON.Vec3(0, -1, 0),\r\n suspensionStiffness: this.raycastVehicle.suspensionStiffness,\r\n suspensionRestLength: this.raycastVehicle.suspensionRestLength,\r\n frictionSlip: this.raycastVehicle.frictionSlip,\r\n dampingRelaxation: this.raycastVehicle.dampingRelaxation,\r\n dampingCompression: this.raycastVehicle.dampingCompression,\r\n maxSuspensionForce: this.raycastVehicle.maxSuspensionForce,\r\n rollInfluence: this.raycastVehicle.rollInfluence,\r\n axleLocal: new CANNON.Vec3(-1, 0, 0),\r\n chassisConnectionPointLocal: new CANNON.Vec3(this.connectionPoint.x, this.connectionPoint.y, this.connectionPoint.z),\r\n maxSuspensionTravel: this.raycastVehicle.maxSuspensionTravel,\r\n customSlidingRotationalSpeed: this.raycastVehicle.customSlidingRotationalSpeed,\r\n useCustomSlidingRotationalSpeed: this.raycastVehicle.useCustomSlidingRotationalSpeed,\r\n });\r\n\r\n this.raycastVehicle.vehicle.wheelInfos.push(this.wheelInfo);\r\n }\r\n\r\n afterUpdate(): void {\r\n if (!this.wheel) return;\r\n\r\n const wheel = this.wheelInfo;\r\n\r\n if (!wheel) return;\r\n\r\n const pos = wheel.worldTransform.position;\r\n const rot = wheel.worldTransform.quaternion;\r\n\r\n this.wheel.position.set(pos.x, pos.y, pos.z);\r\n this.wheel.parent?.worldToLocal(this.wheel.position);\r\n\r\n this.wheel.quaternion.set(rot.x, rot.y, rot.z, rot.w);\r\n\r\n this.matrixA.makeRotationFromQuaternion(this.wheel.quaternion);\r\n this.wheel.updateMatrixWorld();\r\n this.matrixB.copy((this.wheel.parent as THREE.Object3D).matrixWorld).invert();\r\n this.matrixC.extractRotation(this.matrixB);\r\n this.matrixA.premultiply(this.matrixC);\r\n this.wheel.quaternion.setFromRotationMatrix(this.matrixA);\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonWheel);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonShape from './CannonShape';\r\n\r\nexport default class CannonBox extends CannonShape {\r\n shape: CANNON.Box;\r\n @RE.props.vector3() sizeOffset: THREE.Vector3 = new THREE.Vector3(1, 1, 1);\r\n\r\n private _collisionResponse = true;\r\n @RE.props.checkbox()\r\n get collisionResponse() {\r\n return this._collisionResponse;\r\n };\r\n\r\n set collisionResponse(value: boolean) {\r\n this._collisionResponse = value;\r\n if (!this.shape) return;\r\n this.shape.collisionResponse = value;\r\n };\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape() {\r\n this.object3d.getWorldScale(this.worldScale);\r\n\r\n this.shape = new CANNON.Box(\r\n new CANNON.Vec3(\r\n this.sizeOffset.x * (this.worldScale.x/2),\r\n this.sizeOffset.y * (this.worldScale.y/2),\r\n this.sizeOffset.z * (this.worldScale.z/2)\r\n )\r\n );\r\n\r\n this.shape.collisionResponse = this._collisionResponse;\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonBox);\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonShape from './CannonShape';\r\n\r\nexport default class CannonCylinder extends CannonShape {\r\n shape: CANNON.Cylinder;\r\n\r\n @RE.props.num() radiusTopOffset = 1;\r\n @RE.props.num() radiusBottomOffset = 1;\r\n @RE.props.num() heightOffset = 1;\r\n @RE.props.num() segments = 100;\r\n\r\n private _collisionResponse = true;\r\n @RE.props.checkbox()\r\n get collisionResponse() {\r\n return this._collisionResponse;\r\n };\r\n\r\n set collisionResponse(value: boolean) {\r\n this._collisionResponse = value;\r\n if (!this.shape) return;\r\n this.shape.collisionResponse = value;\r\n };\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape() {\r\n this.object3d.getWorldScale(this.worldScale);\r\n\r\n this.shape = new CANNON.Cylinder(\r\n this.radiusTopOffset * this.worldScale.x,\r\n this.radiusBottomOffset * this.worldScale.x,\r\n this.heightOffset * this.worldScale.y,\r\n this.segments\r\n );\r\n\r\n this.shape.collisionResponse = this._collisionResponse;\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonCylinder);\r\n","import * as RE from 'rogue-engine';\r\nimport * as CANNON from 'cannon-es';\r\nimport * as THREE from 'three';\r\nimport CannonBody from '../CannonBody.re';\r\n\r\nexport default class CannonShape extends RE.Component {\r\n shape: CANNON.Shape;\r\n body: CANNON.Body | undefined;\r\n bodyComponent: CannonBody | undefined;\r\n\r\n localPos: THREE.Vector3 = new THREE.Vector3();\r\n worldPos = new THREE.Vector3();\r\n oldPos = new THREE.Vector3();\r\n\r\n localRot = new THREE.Quaternion();\r\n worldQuaternion = new THREE.Quaternion();\r\n\r\n private matrixA = new THREE.Matrix4();\r\n private matrixB = new THREE.Matrix4();\r\n private matrixC = new THREE.Matrix4();\r\n\r\n static findByShape(shape: CANNON.Shape) {\r\n let shapeComponent: undefined | CannonShape;\r\n\r\n RE.traverseComponents(component => {\r\n if (shapeComponent) return;\r\n\r\n if (component instanceof CannonShape && component.shape === shape) {\r\n shapeComponent = component;\r\n }\r\n });\r\n\r\n return shapeComponent;\r\n }\r\n\r\n awake() {\r\n this.createShape();\r\n }\r\n\r\n start() {\r\n if (!this.shape) return;\r\n\r\n this.bodyComponent = this.getBodyComponent(this.object3d);\r\n\r\n if (!this.bodyComponent) return;\r\n\r\n if (!this.bodyComponent.body) return;\r\n\r\n this.body = this.bodyComponent.body;\r\n\r\n const bodyIsShape = this.object3d === this.bodyComponent.object3d;\r\n\r\n this.object3d.getWorldPosition(this.worldPos);\r\n this.localPos.copy(this.worldPos);\r\n this.bodyComponent.object3d.updateWorldMatrix(true, true);\r\n this.bodyComponent.object3d.worldToLocal(this.localPos);\r\n\r\n let position = new CANNON.Vec3(\r\n this.localPos.x,\r\n this.localPos.y,\r\n this.localPos.z,\r\n );\r\n\r\n this.object3d.updateWorldMatrix(true, true);\r\n this.object3d.getWorldQuaternion(this.worldQuaternion);\r\n\r\n this.matrixA.makeRotationFromQuaternion(this.worldQuaternion);\r\n this.object3d.updateWorldMatrix(true, true);\r\n this.matrixB.copy(this.bodyComponent.object3d.matrixWorld).invert();\r\n this.matrixC.extractRotation(this.matrixB);\r\n this.matrixA.premultiply(this.matrixC);\r\n this.localRot.setFromRotationMatrix(this.matrixA);\r\n\r\n let rotation = new CANNON.Quaternion(\r\n this.localRot.x,\r\n this.localRot.y,\r\n this.localRot.z,\r\n this.localRot.w,\r\n );\r\n\r\n if (bodyIsShape) {\r\n this.body.addShape(this.shape);\r\n } else {\r\n this.body.addShape(this.shape, position, rotation);\r\n }\r\n }\r\n\r\n update() {\r\n if (!this.shape) return;\r\n if (!this.shape.body) return;\r\n if (this.shape.body.type === CANNON.BODY_TYPES.STATIC || this.shape.body.mass === 0) return\r\n\r\n const shapeIndex = this.shape.body?.shapes.indexOf(this.shape);\r\n \r\n if (shapeIndex === undefined) return;\r\n\r\n this.oldPos.copy(this.worldPos);\r\n this.object3d.getWorldPosition(this.worldPos);\r\n\r\n if (this.oldPos.equals(this.worldPos)) return;\r\n\r\n this.localPos.copy(this.worldPos);\r\n this.bodyComponent?.object3d.updateWorldMatrix(true, true);\r\n this.bodyComponent?.object3d.worldToLocal(this.localPos);\r\n\r\n this.shape.body?.shapeOffsets[shapeIndex].set(\r\n this.localPos.x,\r\n this.localPos.y,\r\n this.localPos.z\r\n );\r\n this.shape.updateBoundingSphereRadius();\r\n this.shape.body?.updateAABB();\r\n }\r\n\r\n onDisabled() {\r\n this.body?.removeShape(this.shape);\r\n }\r\n\r\n onBeforeObjectRemoved() {\r\n this.body?.removeShape(this.shape);\r\n }\r\n\r\n private getBodyComponent(object3d: THREE.Object3D): CannonBody | undefined {\r\n const bodyComponent = RE.getComponent(CannonBody, object3d);\r\n\r\n if (bodyComponent) {\r\n return bodyComponent;\r\n }\r\n\r\n if (!object3d.parent) return;\r\n\r\n return this.getBodyComponent(object3d.parent as THREE.Object3D);\r\n }\r\n\r\n protected createShape(): void {};\r\n}\r\n","import * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport * as CANNON from 'cannon-es';\r\nimport CannonShape from './CannonShape';\r\n\r\nexport default class CannonSphere extends CannonShape {\r\n @RE.props.num() radiusOffset: number = 1;\r\n\r\n private _collisionResponse = true;\r\n @RE.props.checkbox()\r\n get collisionResponse() {\r\n return this._collisionResponse;\r\n };\r\n\r\n set collisionResponse(value: boolean) {\r\n this._collisionResponse = value;\r\n if (!this.shape) return;\r\n this.shape.collisionResponse = value;\r\n };\r\n\r\n shape: CANNON.Sphere;\r\n bbox: THREE.Box3;\r\n\r\n protected createShape() {\r\n const scale = this.object3d.scale;\r\n const maxSide = Math.max(scale.x, scale.y, scale.z);\r\n\r\n this.shape = new CANNON.Sphere(\r\n this.radiusOffset * (maxSide)\r\n );\r\n\r\n this.shape.collisionResponse = this._collisionResponse;\r\n }\r\n}\r\n\r\nRE.registerComponent(CannonSphere);\r\n","import * as RE from 'rogue-engine';\nimport * as THREE from 'three';\nimport * as CANNON from 'cannon-es';\nimport CannonShape from './CannonShape';\n\nexport default class CannonTrimesh extends CannonShape {\n shape: CANNON.Trimesh;\n @RE.props.vector3() sizeOffset: THREE.Vector3 = new THREE.Vector3(1, 1, 1);\n\n private _collisionResponse = true;\n @RE.props.checkbox()\n get collisionResponse() {\n return this._collisionResponse;\n };\n\n set collisionResponse(value: boolean) {\n this._collisionResponse = value;\n if (!this.shape) return;\n this.shape.collisionResponse = value;\n };\n\n worldScale = new THREE.Vector3();\n worldPos = new THREE.Vector3();\n\n tmpVec0 = new CANNON.Vec3();\n tmpVec1 = new CANNON.Vec3();\n tmpVec2 = new CANNON.Vec3();\n tmpQuat0 = new CANNON.Vec3();\n\n createShape() {\n if (!(this.object3d instanceof THREE.Mesh)) return;\n\n this.object3d.updateWorldMatrix(true, true);\n\n this.object3d.getWorldScale(this.worldScale);\n this.object3d.getWorldPosition(this.worldPos);\n this.object3d.getWorldQuaternion(this.worldQuaternion);\n\n const mesh = this.object3d;\n let geometry = (mesh.geometry as THREE.BufferGeometry);\n \n geometry.computeBoundingSphere();\n geometry.normalizeNormals();\n\n if (geometry.index !== null) {\n const nonIndexedGeo = geometry.toNonIndexed();\n geometry.copy(nonIndexedGeo);\n }\n\n const vertices = this.getVertices(geometry);\n\n\t if (!vertices.length) return;\n\n const indices = Object.keys(vertices).map(Number);\n this.shape = new CANNON.Trimesh(vertices as unknown as number[], indices);\n\n this.shape.collisionResponse = this._collisionResponse;\n }\n\n getVertices (geometry: THREE.BufferGeometry) {\n const position = geometry.attributes.position;\n const vertices = new Float32Array(position.count * 3);\n for (let i = 0; i < position.count; i++) {\n vertices[i * 3] = position.getX(i) * this.worldScale.x;\n vertices[i * 3 + 1] = position.getY(i) * this.worldScale.y;\n vertices[i * 3 + 2] = position.getZ(i) * this.worldScale.z;\n }\n return vertices;\n }\n}\n\nRE.registerComponent(CannonTrimesh);\n","import * as CANNON from 'cannon-es';\r\nimport * as THREE from 'three';\r\n\r\nexport type CollisionEvent = {body: CANNON.Body, target: CANNON.Body, contact: CANNON.ContactEquation};\r\n\r\nlet RogueCannon: {world: CANNON.World} = {world: new CANNON.World()};\r\n\r\nexport function getWorld() {\r\n return RogueCannon.world;\r\n}\r\n\r\nexport function setWorld(newWorld: CANNON.World) {\r\n RogueCannon.world = newWorld;\r\n}\r\n\r\nexport function copyThreeV3(vector3: THREE.Vector3, target: CANNON.Vec3) {\r\n target.set(vector3.x, vector3.y, vector3.z);\r\n}\r\n\r\nexport function copyThreeQuaternion(quaternion: THREE.Quaternion, target: CANNON.Quaternion) {\r\n const q = quaternion;\r\n target.set(q.x, q.y, q.z, q.w);\r\n}\r\n\r\nexport function copyCannonV3(vector3: CANNON.Vec3, target: THREE.Vector3) {\r\n target.set(vector3.x, vector3.y, vector3.z);\r\n}\r\n\r\nexport function copyCannonQuaternion(quaternion: CANNON.Quaternion, target: THREE.Quaternion) {\r\n const q = quaternion;\r\n target.set(q.x, q.y, q.z, q.w);\r\n}\r\n","export * as RogueCannon from \"./Lib/RogueCannon\";","import * as RE from 'rogue-engine'\r\nimport * as THREE from 'three'\r\n\r\nexport default class TargetedOrbitCamera extends RE.Component {\r\n\t@RE.props.object3d() target\r\n\t@RE.props.checkbox() enableRotate = true\r\n\t@RE.props.num() rotateSpeed = 1.0\r\n\r\n\t// How far you can orbit horizontally, upper and lower limits.\r\n\t// If set, the interval [ min, max ] must be a sub-interval of [ - 2 PI, 2 PI ], with ( max - min < 2 PI )\r\n\t@RE.props.num() minAzimuthAngle = - 6.28 // 2 PI radians\r\n\t@RE.props.num() maxAzimuthAngle = 6.28 // -2 PI radians\r\n\r\n\t// How far you can orbit vertically, upper and lower limits.\r\n\t// Range is 0 to Math.PI radians.\r\n\t@RE.props.num() minPolarAngle = 0 // radians\r\n\t@RE.props.num() maxPolarAngle = 1.56 // 0.5 PI radians\r\n\t@RE.props.checkbox() enableDolly = true\r\n\t@RE.props.num() dollySpeed = 1.0\r\n\t@RE.props.num() minDistance = 1\r\n\t@RE.props.num() maxDistance = 50\r\n\t@RE.props.vector3() offset = new THREE.Vector3()\r\n\t@RE.props.num() rotateMouseButton = 2\r\n\r\n\t@RE.props.checkbox() useCameraLock = false\r\n\r\n\trotateStart = new THREE.Vector2()\r\n\trotateEnd = new THREE.Vector2()\r\n\trotateDelta = new THREE.Vector2()\r\n\r\n\tscale = 1\r\n\tEPS = 0.000001\r\n\ttwoPI = 2 * Math.PI\r\n\r\n\tspherical = new THREE.Spherical()\r\n\tsphericalDelta = new THREE.Spherical()\r\n\r\n\tquat = new THREE.Quaternion().setFromUnitVectors( new THREE.Vector3( 0, 1, 0 ), new THREE.Vector3( 0, 1, 0 ) )\r\n\tquatInverse = this.quat.clone().invert()\r\n\r\n\tlastPosition = new THREE.Vector3()\r\n\tlastQuaternion = new THREE.Quaternion()\r\n\r\n\tinitialOffset = new THREE.Vector3()\r\n\r\n\t\r\n\r\n awake() {\r\n\tif(this.useCameraLock) {\r\n\t\tconst container = document.getElementById(RE.Runtime.containerId)\r\n\t\t// container?.addEventListener(\"mousedown\", this.lock.bind(this), false)\r\n\t\tif(container) {\r\n\t\t\tcontainer.onmousedown = this.lock.bind(this)\r\n\t\t\tRE.Runtime.onStop(this.dispose)\r\n\t\t}\r\n\t}\r\n }\r\n\r\n start() {\r\n\r\n\tif(!this.target) {\r\n\t\tRE.Debug.logError(\"Orbit controls not set to an Object3D Target.\")\r\n\t\treturn\r\n\t}\r\n\r\n\tRE.Runtime.rogueDOMContainer.addEventListener('contextmenu', event => { event.preventDefault() })\r\n\t\r\n\t// so camera.up is the orbit axis\r\n\tthis.quat = new THREE.Quaternion().setFromUnitVectors( this.object3d.up, new THREE.Vector3( 0, 1, 0 ) )\r\n\tthis.quatInverse = this.quat.clone().invert()\r\n\r\n\tthis.initialOffset.copy(this.object3d.position).sub(this.target.position)\r\n\tthis.offset.copy(this.initialOffset)\r\n }\r\n\r\n update() {\t\r\n\tif(!this.target) {\r\n\t\treturn\r\n\t}\r\n\t\r\n\tif(this.useCameraLock && !!document.pointerLockElement) {\t\r\n\t\tif(this.enableRotate && RE.Input.mouse.isMoving) {\t\r\n\t\t\tlet normalizedScreenMovement = new THREE.Vector2(0,0)\r\n\t\t\tthis.normalizeScreenMovement({x: RE.Input.mouse.movementX, y: RE.Input.mouse.movementY}, normalizedScreenMovement)\r\n\t\t\tthis.rotateLeft(this.twoPI * normalizedScreenMovement.x)\r\n\t\r\n\t\t\tthis.rotateUp(this.twoPI * -normalizedScreenMovement.y)\r\n\t\t}\r\n\t} else {\r\n\t\tlet normalizedScreenPosition = new THREE.Vector2(0,0)\r\n\t\tthis.normalizeScreenInput(RE.Input.mouse, normalizedScreenPosition)\r\n\t\tif(this.enableRotate && RE.Input.mouse.getButtonDown(this.rotateMouseButton)) {\r\n\t\t\tthis.rotateStart.set( normalizedScreenPosition.x, normalizedScreenPosition.y )\r\n\t\t}\r\n\t\r\n\t\tif(this.enableRotate && RE.Input.mouse.getButtonPressed(this.rotateMouseButton)) {\r\n\t\t\tthis.rotateEnd.set( normalizedScreenPosition.x, normalizedScreenPosition.y )\r\n\t\r\n\t\t\tthis.rotateDelta.subVectors( this.rotateEnd, this.rotateStart ).multiplyScalar( this.rotateSpeed )\r\n\t\r\n\t\t\tthis.rotateLeft(this.twoPI * this.rotateDelta.x)\r\n\t\r\n\t\t\tthis.rotateUp(this.twoPI * -this.rotateDelta.y)\r\n\t\r\n\t\t\tthis.rotateStart.copy( this.rotateEnd )\r\n\t\t}\r\n\t}\r\n\r\n\tif(this.enableDolly && RE.Input.mouse.wheelY > 0) {\r\n\t\tthis.dollyOut()\r\n\t}\r\n\r\n\tif(this.enableDolly && RE.Input.mouse.wheelY < 0) {\r\n\t\tthis.dollyIn()\r\n\t}\r\n\r\n\tthis.updateCamera()\r\n\r\n\tif(this.useCameraLock && RE.Input.keyboard.getKeyPressed(\"Escape\")) {\r\n\t\tthis.unlock()\r\n\t}\r\n}\r\n\r\n\tdispose() {\r\n\t\tconst container = document.getElementById(RE.Runtime.containerId)\r\n\t\tif(container) {\r\n\t\t\t// container?.removeEventListener(\"mousedown\", this.lock)\r\n\t\t\tcontainer.onmousedown = null\r\n\t\t}\r\n\t}\r\n\r\n\trotateLeft(angle) {\r\n\t\tthis.sphericalDelta.theta -= angle\r\n\t}\r\n\r\n\trotateUp(angle) {\r\n\t\tthis.sphericalDelta.phi -= angle\r\n\t}\r\n\r\n\tupdateCamera() {\r\n\t\t// rotate offset to \"y-axis-is-up\" space\r\n\t\tthis.offset.applyQuaternion(this.quat)\r\n\r\n\t\t// angle from z-axis around y-axis\r\n\t\tthis.spherical.setFromVector3(this.offset)\r\n\t\tthis.spherical.theta += this.sphericalDelta.theta\r\n\t\tthis.spherical.phi += this.sphericalDelta.phi\r\n\r\n\t\t// restrict theta to be between desired limits\r\n\t\tlet min = this.minAzimuthAngle\r\n\t\tlet max = this.maxAzimuthAngle\r\n\r\n\t\tif ( isFinite(min) && isFinite(max) ) {\r\n\r\n\t\t\tif (min < -Math.PI) {\r\n\t\t\t\tmin += this.twoPI\r\n\t\t\t} else if (min > Math.PI) {\r\n\t\t\t\tmin -= this.twoPI\r\n\t\t\t}\r\n\r\n\t\t\tif (max < - Math.PI) {\r\n\t\t\t\tmax += this.twoPI\r\n\t\t\t} else if (max > Math.PI) {\r\n\t\t\t\tmax -= this.twoPI\r\n\t\t\t}\r\n\r\n\t\t\tif (min <= max) {\r\n\t\t\t\tthis.spherical.theta = Math.max(min, Math.min(max, this.spherical.theta))\r\n\t\t\t} else {\r\n\t\t\t\tthis.spherical.theta = (this.spherical.theta > (min + max) / 2 ) ?\r\n\t\t\t\t\tMath.max( min, this.spherical.theta ) :\r\n\t\t\t\t\tMath.min( max, this.spherical.theta )\r\n\t\t\t}\r\n\t\t}\r\n\r\n\t\t// restrict phi to be between desired limits\r\n\t\tthis.spherical.phi = Math.max(this.minPolarAngle, Math.min(this.maxPolarAngle, this.spherical.phi))\r\n\r\n\t\tthis.spherical.makeSafe()\r\n\r\n\r\n\t\tthis.spherical.radius *= this.scale\r\n\r\n\t\t// restrict radius to be between desired limits\r\n\t\tthis.spherical.radius = Math.max(this.minDistance, Math.min(this.maxDistance, this.spherical.radius))\r\n\r\n\t\tthis.offset.setFromSpherical(this.spherical)\r\n\r\n\t\t// rotate offset back to \"camera-up-vector-is-up\" space\r\n\t\tthis.offset.applyQuaternion(this.quatInverse)\r\n\r\n\t\tthis.object3d.position.copy(this.target.position).add(this.offset)\r\n\r\n\t\tthis.object3d.lookAt(this.target.position)\r\n\r\n\t\tthis.sphericalDelta.set(0, 0, 0)\r\n\r\n\t\tthis.scale = 1\r\n\r\n\t\t// update condition is:\r\n\t\t// min(camera displacement, camera rotation in radians)^2 > EPS\r\n\t\t// using small-angle approximation cos(x/2) = 1 - x^2 / 8\r\n\t\tif (this.lastPosition.distanceToSquared(this.object3d.position) > this.EPS ||\r\n\t\t\t8 * (1 - this.lastQuaternion.dot(this.object3d.quaternion)) > this.EPS) {\r\n\r\n\t\t\tthis.lastPosition.copy(this.object3d.position)\r\n\t\t\tthis.lastQuaternion.copy(this.object3d.quaternion)\r\n\t\t}\r\n\t}\r\n\r\n\tdollyOut() {\r\n\t\tthis.scale /= Math.pow(0.95, this.dollySpeed)\r\n\t}\r\n\r\n\tdollyIn() {\r\n\t\tthis.scale *= Math.pow(0.95, this.dollySpeed)\r\n\t}\r\n\r\n normalizeScreenInput(browserVector, gameVector) {\r\n\tconst bounds = RE.Runtime.rogueDOMContainer.getBoundingClientRect()\r\n\tgameVector.x = ((browserVector.x - bounds.left) / bounds.width) * 2 - 1\r\n\tgameVector.y = -((browserVector.y - bounds.top) / bounds.height) * 2 + 1\r\n }\r\n\r\n normalizeScreenMovement(browserVector, gameVector) {\r\n\tconst bounds = RE.Runtime.rogueDOMContainer.getBoundingClientRect()\r\n\tgameVector.x = (browserVector.x / bounds.width)\r\n\tgameVector.y = -(browserVector.y / bounds.height)\r\n }\r\n\r\n lock() {\r\n\tif(!this.useCameraLock) {\r\n\t\treturn\r\n\t}\r\n\tRE.Input.mouse.lock()\r\n }\r\n\r\n unlock() {\r\n\tif(!this.useCameraLock) {\r\n\t\treturn\r\n\t}\r\n\tRE.Input.mouse.unlock()\r\n }\r\n}\r\n\r\nRE.registerComponent(TargetedOrbitCamera)","import RAPIER from '@dimforge/rapier3d-compat';\r\nimport * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport RogueRapier from '../../Lib/RogueRapier';\r\nimport RapierCollider from './RapierCollider';\r\n\r\nexport default class RapierBall extends RapierCollider {\r\n private _radiusOffset = 0;\r\n\r\n @RE.props.num()\r\n get radiusOffset() {\r\n return this._radiusOffset;\r\n }\r\n\r\n set radiusOffset(value: number) {\r\n const oldValue = this._radiusOffset;\r\n this._radiusOffset = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape(): void {\r\n this.object3d.getWorldScale(this.worldScale);\r\n const maxSide = Math.max(this.worldScale.x, this.worldScale.y, this.worldScale.z);\r\n\r\n let colliderDesc = RAPIER.ColliderDesc.ball(this.radiusOffset + maxSide);\r\n this.collider = RogueRapier.world.createCollider(colliderDesc, this.body);\r\n }\r\n}\r\n\r\nRE.registerComponent(RapierBall);\r\n","import RAPIER from '@dimforge/rapier3d-compat';\r\nimport * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport RogueRapier from '../../Lib/RogueRapier';\r\nimport RapierCollider from './RapierCollider';\r\n\r\nexport default class RapierCapsule extends RapierCollider {\r\n private _halfHeight = 0.5;\r\n private _radius = 0.5;\r\n\r\n @RE.props.num() \r\n get halfHeight() {\r\n return this._halfHeight;\r\n }\r\n\r\n set halfHeight(value: number) {\r\n const oldValue = this._halfHeight;\r\n this._halfHeight = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n @RE.props.num()\r\n get radius() {\r\n return this._radius;\r\n }\r\n\r\n set radius(value: number) {\r\n const oldValue = this._radius;\r\n this._radius = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape(): void {\r\n this.object3d.getWorldScale(this.worldScale);\r\n\r\n const maxSide = Math.max(this.worldScale.x, this.worldScale.z);\r\n\r\n let colliderDesc = RAPIER.ColliderDesc.capsule(this.halfHeight * this.worldScale.y, this.radius * maxSide);\r\n this.collider = RogueRapier.world.createCollider(colliderDesc, this.body);\r\n }\r\n}\r\n\r\nRE.registerComponent(RapierCapsule);\r\n","import RAPIER from '@dimforge/rapier3d-compat';\nimport * as RE from 'rogue-engine';\nimport * as THREE from 'three';\nimport RogueRapier from '../../Lib/RogueRapier';\nimport RapierBody from '../RapierBody.re';\n\nexport default abstract class RapierCollider extends RE.Component {\n initialized = false;\n collider: RAPIER.Collider;\n body: RAPIER.RigidBody;\n bodyComponent: RapierBody;\n\n localPos: THREE.Vector3 = new THREE.Vector3();\n worldPos = new THREE.Vector3();\n\n localRot = new THREE.Quaternion();\n worldQuaternion = new THREE.Quaternion();\n\n @RE.props.checkbox() isSensor = false;\n @RE.props.checkbox() collisionEvents = false;\n\n static findByShape(shape: RAPIER.Collider) {\n let shapeComponent: undefined | RapierCollider;\n\n RE.traverseComponents(component => {\n if (shapeComponent) return;\n\n if (component instanceof RapierCollider && component.collider === shape) {\n shapeComponent = component;\n }\n });\n\n return shapeComponent;\n }\n\n init() {\n this.bodyComponent = this.getBodyComponent(this.object3d) as RapierBody;\n\n if (!this.bodyComponent) return;\n if (!this.bodyComponent.body) return;\n\n this.body = this.bodyComponent.body;\n\n this.createShape();\n\n this.collider.setSensor(this.isSensor);\n this.collisionEvents && this.collider.setActiveEvents(RAPIER.ActiveEvents.COLLISION_EVENTS);\n\n this.setColliderPos();\n this.setColliderRot();\n\n this.initialized = true;\n }\n\n setColliderPos() {\n this.object3d.updateWorldMatrix(true, true);\n this.object3d.getWorldPosition(this.worldPos);\n\n this.collider.setTranslation(this.worldPos);\n }\n\n setColliderRot() {\n this.object3d.updateWorldMatrix(true, true);\n this.object3d.getWorldQuaternion(this.worldQuaternion);\n\n this.collider.setRotation(this.worldQuaternion);\n }\n\n beforeUpdate(): void {\n if (!RogueRapier.initialized) return;\n if (!this.initialized) this.init();\n if (!this.collider) return;\n\n this.setColliderPos();\n this.setColliderRot();\n }\n\n onDisabled() {\n RogueRapier.world.removeCollider(this.collider, false);\n }\n\n onBeforeObjectRemoved() {\n RogueRapier.world.removeCollider(this.collider, false);\n }\n\n getBodyComponent(object3d: THREE.Object3D): RapierBody | undefined {\n const bodyComponent = RE.getComponent(RapierBody, object3d);\n\n if (bodyComponent) {\n return bodyComponent;\n }\n\n if (!object3d.parent) return;\n\n return this.getBodyComponent(object3d.parent as THREE.Object3D);\n }\n\n protected createShape(): void {};\n}\n","import RAPIER from '@dimforge/rapier3d-compat';\r\nimport * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport RogueRapier from '../../Lib/RogueRapier';\r\nimport RapierCollider from './RapierCollider';\r\n\r\nexport default class RapierCone extends RapierCollider {\r\n private _halfHeight = 0.5;\r\n private _radius = 0.5;\r\n\r\n @RE.props.num() \r\n get halfHeight() {\r\n return this._halfHeight;\r\n }\r\n\r\n set halfHeight(value: number) {\r\n const oldValue = this._halfHeight;\r\n this._halfHeight = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n @RE.props.num()\r\n get radius() {\r\n return this._radius;\r\n }\r\n\r\n set radius(value: number) {\r\n const oldValue = this._radius;\r\n this._radius = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape(): void {\r\n this.object3d.getWorldScale(this.worldScale);\r\n const maxSide = Math.max(this.worldScale.x, this.worldScale.z);\r\n\r\n let colliderDesc = RAPIER.ColliderDesc.cone(this.halfHeight * this.worldScale.y, this.radius * maxSide);\r\n this.collider = RogueRapier.world.createCollider(colliderDesc, this.body);\r\n }\r\n}\r\n\r\nRE.registerComponent(RapierCone);\r\n","import RAPIER from '@dimforge/rapier3d-compat';\r\nimport * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport RogueRapier from '../../Lib/RogueRapier';\r\nimport RapierCollider from './RapierCollider';\r\n\r\nexport default class RapierCuboid extends RapierCollider {\r\n private _sizeOffsetX = 1;\r\n private _sizeOffsetY = 1;\r\n private _sizeOffsetZ = 1;\r\n\r\n @RE.props.num()\r\n get sizeOffsetX() {\r\n return this._sizeOffsetX;\r\n }\r\n\r\n set sizeOffsetX(value: number) {\r\n const oldValue = this._sizeOffsetX;\r\n this._sizeOffsetX = value;\r\n\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n @RE.props.num()\r\n get sizeOffsetY() {\r\n return this._sizeOffsetY;\r\n }\r\n\r\n set sizeOffsetY(value: number) {\r\n const oldValue = this._sizeOffsetY;\r\n this._sizeOffsetY = value;\r\n\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n @RE.props.num()\r\n get sizeOffsetZ() {\r\n return this._sizeOffsetZ;\r\n }\r\n\r\n set sizeOffsetZ(value: number) {\r\n const oldValue = this._sizeOffsetZ;\r\n this._sizeOffsetZ = value;\r\n\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape(): void {\r\n this.object3d.getWorldScale(this.worldScale);\r\n\r\n let colliderDesc = RAPIER.ColliderDesc.cuboid(\r\n this._sizeOffsetX * (this.worldScale.x/2),\r\n this._sizeOffsetY * (this.worldScale.y/2),\r\n this._sizeOffsetZ * (this.worldScale.z/2)\r\n );\r\n\r\n this.collider = RogueRapier.world.createCollider(colliderDesc, this.body);\r\n }\r\n}\r\n\r\nRE.registerComponent(RapierCuboid);\r\n","import RAPIER from '@dimforge/rapier3d-compat';\r\nimport * as RE from 'rogue-engine';\r\nimport * as THREE from 'three';\r\nimport RogueRapier from '../../Lib/RogueRapier';\r\nimport RapierCollider from './RapierCollider';\r\n\r\nexport default class RapierCylinder extends RapierCollider {\r\n private _halfHeight = 0.5;\r\n private _radius = 1;\r\n\r\n @RE.props.num() \r\n get halfHeight() {\r\n return this._halfHeight;\r\n }\r\n\r\n set halfHeight(value: number) {\r\n const oldValue = this._halfHeight;\r\n this._halfHeight = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n @RE.props.num()\r\n get radius() {\r\n return this._radius;\r\n }\r\n\r\n set radius(value: number) {\r\n const oldValue = this._radius;\r\n this._radius = value;\r\n if (oldValue !== value && this.collider && RogueRapier.world) {\r\n RogueRapier.world.removeCollider(this.collider, false);\r\n this.init();\r\n }\r\n }\r\n\r\n worldScale = new THREE.Vector3();\r\n\r\n protected createShape(): void {\r\n this.object3d.getWorldScale(this.worldScale);\r\n\r\n const maxSide = Math.max(this.worldScale.x, this.worldScale.z);\r\n\r\n let colliderDesc = RAPIER.ColliderDesc.cylinder(this.halfHeight * this.worldScale.y, this.radius * maxSide);\r\n this.collider = RogueRapier.world.createCollider(colliderDesc, this.body);\r\n }\r\n}\r\n\r\nRE.registerComponent(RapierCylinder);\r\n","import * as RE from 'rogue-engine';\nimport * as THREE from 'three';\nimport RAPIER from '@dimforge/rapier3d-compat';\nimport RogueRapier from '../../Lib/RogueRapier';\nimport RapierCollider from './RapierCollider';\n\nexport default class RapierTrimesh extends RapierCollider {\n worldScale = new THREE.Vector3();\n worldPos = new THREE.Vector3();\n\n tmpVec0 = new RAPIER.Vector3(0,0,0);\n tmpVec1 = new RAPIER.Vector3(0,0,0);\n tmpVec2 = new RAPIER.Vector3(0,0,0);\n tmpQuat0 = new RAPIER.Vector3(0,0,0);\n\n createShape() {\n if (!(this.object3d instanceof THREE.Mesh)) return;\n\n this.object3d.updateWorldMatrix(true, true);\n\n this.object3d.getWorldScale(this.worldScale);\n this.object3d.getWorldPosition(this.worldPos);\n this.object3d.getWorldQuaternion(this.worldQuaternion);\n\n const mesh = this.object3d;\n let geometry = (mesh.geometry as THREE.BufferGeometry);\n \n // geometry.computeBoundingSphere();\n // geometry.normalizeNormals();\n\n const vertices = this.getVertices(geometry);\n\n\t if (!vertices.length) return;\n\n const indices = geometry.getIndex();\n\n if (!indices) return;\n\n let cleanIndiArray: number[] = [];\n\n for ( let i = 0; i < indices.count; i += 3 ) {\n const a = indices.getX( i );\n const b = indices.getX( i + 1 );\n const c = indices.getX( i + 2 );\n\n cleanIndiArray.push(a,b,c);\n }\n\n let colliderDesc = RAPIER.ColliderDesc.trimesh(vertices, new Uint32Array(cleanIndiArray));\n this.collider = RogueRapier.world.createCollider(colliderDesc, this.body);\n }\n\n getVertices(geometry: THREE.BufferGeometry) {\n const position = geometry.attributes.position;\n const vertices = new Float32Array(position.count * 3);\n for (let i = 0; i < position.count; i++) {\n vertices[i * 3] = position.getX(i) * this.worldScale.x;\n vertices[i * 3 + 1] = position.getY(i) * this.worldScale.y;\n vertices[i * 3 + 2] = position.getZ(i) * this.worldScale.z;\n }\n\n return vertices;\n }\n}\n\nRE.registerComponent(RapierTrimesh);\n ","import RAPIER from '@dimforge/rapier3d-compat';\nimport * as RE from 'rogue-engine';\nimport * as THREE from 'three';\nimport RogueRapier from '../Lib/RogueRapier';\n\nexport type RapierCollisionInfo = {ownCollider: RAPIER.Collider, otherCollider: RAPIER.Collider, otherBody: RapierBody};\n\nexport default class RapierBody extends RE.Component {\n @RE.props.select() type = 0;\n typeOptions = [\"Dynamic\", \"Fixed\", \"KinematicPositionBased\", \"KinematicVelocityBased\"];\n @RE.props.num() mass = 1;\n\n private _gravityScale = 1;\n @RE.props.num()\n get gravityScale() {\n return this._gravityScale;\n }\n\n set gravityScale(value: number) {\n this._gravityScale = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setGravityScale(value, true));\n }\n \n private _angularDamping = 0;\n @RE.props.num() \n get angularDamping() {\n return this._angularDamping;\n }\n\n set angularDamping(value: number) {\n this._angularDamping = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setAngularDamping(value));\n }\n\n private _linearDamping = 0;\n @RE.props.num()\n get linearDamping() {\n this.body\n return this._linearDamping;\n }\n\n set linearDamping(value: number) {\n this._linearDamping = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setLinearDamping(value));\n }\n\n private _xTranslation = true;\n @RE.props.checkbox() \n get xTranslation() {\n return this._xTranslation;\n }\n\n set xTranslation(value: boolean) {\n this._xTranslation = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setEnabledTranslations(value, this._yTranslation, this._zTranslation, true));\n }\n\n private _yTranslation = true;\n @RE.props.checkbox() \n get yTranslation() {\n return this._yTranslation;\n }\n\n set yTranslation(value: boolean) {\n this._yTranslation = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setEnabledTranslations(this._xTranslation, value, this._zTranslation, true));\n }\n\n private _zTranslation = true;\n @RE.props.checkbox() \n get zTranslation() {\n return this._zTranslation;\n }\n\n set zTranslation(value: boolean) {\n this._zTranslation = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setEnabledTranslations(this._xTranslation, this._yTranslation, value, true));\n }\n\n private _xRotation = true;\n @RE.props.checkbox() \n get xRotation() {\n return this._xRotation;\n }\n\n set xRotation(value: boolean) {\n this._xRotation = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setEnabledRotations(value, this._yRotation, this._zRotation, true));\n }\n\n private _yRotation = true;\n @RE.props.checkbox() \n get yRotation() {\n return this._yRotation;\n }\n\n set yRotation(value: boolean) {\n this._yRotation = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setEnabledRotations(this._xRotation, value, this._zRotation, true));\n }\n\n private _zRotation = true;\n @RE.props.checkbox() \n get zRotation() {\n return this._zRotation;\n }\n\n set zRotation(value: boolean) {\n this._zRotation = value;\n RE.Runtime.isRunning && \n this.body && (this.body.setEnabledRotations(this._xRotation, this._yRotation, value, true));\n }\n\n body: RAPIER.RigidBody;\n initialized = false;\n\n onCollisionStart: (info: RapierCollisionInfo) => void = () => {};\n onCollisionEnd: (info: RapierCollisionInfo) => void = () => {};\n\n private newPos = new THREE.Vector3();\n private newRot = new THREE.Quaternion();\n private matrixA = new THREE.Matrix4();\n private matrixB = new THREE.Matrix4();\n private matrixC = new THREE.Matrix4();\n\n init() {\n let rigidBodyDesc = this.getType();\n\n // const pos = this.object3d.position;\n // const rot = this.object3d.quaternion;\n\n this.object3d.getWorldPosition(this.newPos);\n this.object3d.getWorldQuaternion(this.newRot);\n \n rigidBodyDesc\n .setGravityScale(this._gravityScale)\n .setTranslation(this.newPos.x, this.newPos.y, this.newPos.z)\n .setRotation(this.newRot)\n .setAngularDamping(this._angularDamping)\n .setLinearDamping(this._linearDamping)\n .enabledRotations(this._xRotation, this._yRotation, this._zRotation)\n .enabledTranslations(this._xTranslation, this._yTranslation, this._zTranslation);\n\n rigidBodyDesc.mass = this.mass;\n\n this.body = RogueRapier.world.createRigidBody(rigidBodyDesc);\n this.body.userData = {object3d: this.object3d.uuid};\n this.initialized = true;\n }\n\n private getType() {\n if (Number(this.type) === 1) return RAPIER.RigidBodyDesc.fixed();\n else if (Number(this.type) === 2) return RAPIER.RigidBodyDesc.kinematicPositionBased();\n else if (Number(this.type) === 3) return RAPIER.RigidBodyDesc.kinematicVelocityBased();\n else return RAPIER.RigidBodyDesc.dynamic();\n }\n\n beforeUpdate(): void {\n if (!RogueRapier.initialized) return;\n !this.initialized && this.init();\n\n this.type !== RAPIER.RigidBodyType.Fixed && \n this.updatePhysics();\n }\n\n updatePhysics() {\n this.copyBodyPosition();\n this.copyBodyRotation();\n }\n\n private copyBodyPosition() {\n const pos = this.body.translation();\n this.newPos.set(pos.x, pos.y, pos.z);\n \n this.object3d.parent?.worldToLocal(this.newPos);\n this.object3d.position.copy(this.newPos);\n }\n\n private copyBodyRotation() {\n const rot = this.body.rotation();\n this.newRot.set(rot.x, rot.y, rot.z, rot.w);\n\n this.matrixA.makeRotationFromQuaternion(this.newRot);\n this.object3d.updateMatrixWorld();\n this.matrixB.copy((this.object3d.parent as THREE.Object3D).matrixWorld).invert();\n this.matrixC.extractRotation(this.matrixB);\n this.matrixA.premultiply(this.matrixC);\n this.object3d.quaternion.setFromRotationMatrix(this.matrixA);\n }\n}\n\nRE.registerComponent(RapierBody);\n","import * as RE from 'rogue-engine';\nimport * as THREE from 'three';\nimport RogueRapier from '../Lib/RogueRapier';\nimport RapierBody from './RapierBody.re';\nimport RAPIER from '@dimforge/rapier3d-compat';\n\nexport default class RapierConfig extends RE.Component {\n @RE.props.vector3() gravity = new THREE.Vector3(0, -9.81, 0);\n\n private _debug = false;\n\n @RE.props.checkbox() get debug() {return this._debug}\n\n set debug(value: boolean) {\n this._debug = value;\n\n RE.Runtime.isRunning && value ? \n RE.App.currentScene.add(this.lines) : \n RE.App.currentScene.remove(this.lines)\n }\n\n lines = new THREE.LineSegments(\n new THREE.BufferGeometry(),\n new THREE.LineBasicMaterial({ color: new THREE.Color(\"#00FF00\") })\n );\n\n awake() {\n this.lines.name = \"Rapier Debug Lines\";\n\n RogueRapier.init(() => {\n RogueRapier.world.gravity = this.gravity;\n });\n }\n\n start() {\n if (this.debug) {\n RE.App.currentScene.add(this.lines);\n }\n }\n\n beforeUpdate() {\n if (!RogueRapier.initialized) return;\n\n if (this.debug) {\n let buffers = RogueRapier.world.debugRender();\n\n this.lines.geometry.setAttribute(\n \"position\",\n new THREE.BufferAttribute(buffers.vertices, 3),\n );\n \n this.lines.geometry.setAttribute(\n \"color\",\n new THREE.BufferAttribute(buffers.colors, 4),\n );\n }\n\n RogueRapier.world.step(RogueRapier.eventQueue);\n\n RogueRapier.eventQueue.drainCollisionEvents((handle1, handle2, started) => {\n const col1 = RogueRapier.world.getCollider(handle1);\n const col2 = RogueRapier.world.getCollider(handle2);\n\n const body1 = col1.parent();\n const body2 = col2.parent();\n\n const components = RE.getComponents(RapierBody);\n\n let bodyComp1: RapierBody | undefined;\n let bodyComp2: RapierBody | undefined;\n\n components.forEach(bodyComp => {\n if (bodyComp.body.handle === body1?.handle) {\n bodyComp1 = bodyComp;\n }\n else if (bodyComp.body.handle === body2?.handle) {\n bodyComp2 = bodyComp;\n }\n });\n\n if (bodyComp1 && col1.activeEvents() === RAPIER.ActiveEvents.COLLISION_EVENTS) {\n const colInfo = {ownCollider: col1, otherCollider: col2, otherBody: bodyComp2 as RapierBody}\n started ? bodyComp1.onCollisionStart(colInfo) : bodyComp1.onCollisionEnd(colInfo);\n }\n\n if (bodyComp2 && col2.activeEvents() === RAPIER.ActiveEvents.COLLISION_EVENTS) {\n const colInfo = {ownCollider: col1, otherCollider: col2, otherBody: bodyComp1 as RapierBody}\n started ? bodyComp2.onCollisionStart(colInfo) : bodyComp2.onCollisionEnd(colInfo);\n }\n });\n }\n}\n\nRE.registerComponent(RapierConfig);\n","import RAPIER from '@dimforge/rapier3d-compat';\r\n\r\nexport default class RogueRapier {\r\n static world: RAPIER.World;\r\n static eventQueue: RAPIER.EventQueue;\r\n static initialized = false;\r\n\r\n static init(onDone: () => void) {\r\n this.initialized = false;\r\n const done = this.doInit();\r\n done.then(() => onDone());\r\n }\r\n\r\n private static async doInit() {\r\n await RAPIER.init();\r\n this.world = new RAPIER.World({x: 0, y: -9.81, z: 0});\r\n this.eventQueue && this.eventQueue.clear();\r\n this.eventQueue = this.eventQueue || new RAPIER.EventQueue(true);\r\n this.initialized = true;\r\n }\r\n}\r\n","module.exports = __WEBPACK_EXTERNAL_MODULE_rogue_engine__;","module.exports = __WEBPACK_EXTERNAL_MODULE_three__;","// The module cache\nvar __webpack_module_cache__ = {};\n\n// The require 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