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Ammo.d.ts
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Ammo.d.ts
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// tslint:disable
declare function Ammo(): Promise<void>;
declare namespace Ammo {
type Constructor<T = {}> = new (...args: any[]) => T;
type VoidPtr = number;
type Pointer = { ptr: number };
const NULL: {};
const PHY_FLOAT: number;
const HEAPF32: Float32Array;
function destroy(obj: Ammo.Type): void;
function castObject<T1, T2 extends Ammo.Type>(obj: T1, fun: Constructor<T2>): T2;
function wrapPointer<T extends Ammo.Type>(params: number, obj: Constructor<T>): T;
function addFunction(params: Function): number;
function getClass(obj: Ammo.Type): void;
function getPointer(obj: Ammo.Type): number;
function getCache(fun: Constructor<Ammo.Type>): void;
function _malloc(byte: number): number;
function _free(...args: any): any;
function compare(obj1: Ammo.Type, obj2: Ammo.Type): boolean;
interface btIDebugDraw {
drawLine(from: btVector3, to: btVector3, color: btVector3): void;
drawContactPoint(
pointOnB: btVector3,
normalOnB: btVector3,
distance: number,
lifeTime: number,
color: btVector3,
): void;
reportErrorWarning(warningString: string): void;
draw3dText(location: btVector3, textString: string): void;
setDebugMode(debugMode: number): void;
getDebugMode(): number;
}
class DebugDrawer implements btIDebugDraw {
constructor();
public drawLine(from: btVector3, to: btVector3, color: btVector3): void;
public drawContactPoint(
pointOnB: btVector3,
normalOnB: btVector3,
distance: number,
lifeTime: number,
color: btVector3,
): void;
public reportErrorWarning(warningString: string): void;
public draw3dText(location: btVector3, textString: string): void;
public setDebugMode(debugMode: number): void;
public getDebugMode(): number;
}
class btVector3 {
constructor();
constructor(x: number, y: number, z: number);
public length(): number;
public x(): number;
public y(): number;
public z(): number;
public setX(x: number): void;
public setY(y: number): void;
public setZ(z: number): void;
public setValue(x: number, y: number, z: number): void;
public normalize(): void;
/**[Value] */
public rotate(wAxis: btVector3, angle: number): btVector3;
public dot(v: btVector3): number;
public op_mul(x: number): btVector3;
public op_add(v: btVector3): btVector3;
public op_sub(v: btVector3): btVector3;
}
class btVector4 extends btVector3 {
constructor();
constructor(x: number, y: number, z: number, w: number);
public w(): number;
public setValue(x: number, y: number, z: number): void;
public setValue(x: number, y: number, z: number, w: number): void;
}
class btQuadWord {
public x(): number;
public y(): number;
public z(): number;
public w(): number;
public setX(x: number): void;
public setY(y: number): void;
public setZ(z: number): void;
public setW(w: number): void;
}
class btQuaternion extends btQuadWord {
constructor();
constructor(x: number, y: number, z: number, w: number);
public setValue(x: number, y: number, z: number, w: number): void;
public setEulerZYX(z: number, y: number, x: number): void;
public setRotation(axis: btVector3, angle: number): void;
public normalize(): void;
public length2(): number;
public length(): number;
public dot(q: btQuaternion): number;
/**[Value] */
public normalized(): btQuaternion;
/**[Value] */
public getAxis(): btVector3;
/**[Value] */
public inverse(): btQuaternion;
public getAngle(): number;
public getAngleShortestPath(): number;
public angle(q: btQuaternion): number;
public angleShortestPath(q: btQuaternion): number;
public op_add(q: btQuaternion): btQuaternion;
public op_sub(q: btQuaternion): btQuaternion;
public op_mul(s: number): btQuaternion;
public op_mulq(q: btQuaternion): btQuaternion;
public op_div(s: number): btQuaternion;
}
class btMatrix3x3 {
public setEulerZYX(ex: number, ey: number, ez: number): void;
public getRotation(q: btQuaternion): void;
public getRow(y: number): btVector3;
}
class btTransform {
constructor();
constructor(q: btQuaternion, v: btVector3);
public setIdentity(): void;
public setOrigin(origin: btVector3): void;
public setRotation(rotation: btQuaternion): void;
public getOrigin(): btVector3;
/**[Value] */
public getRotation(): btQuaternion;
public getBasis(): btMatrix3x3;
public setFromOpenGLMatrix(m: number[]): void;
/**[Value] */
public inverse(): btTransform;
public op_mul(t: btTransform): btTransform;
}
class btMotionState {
public getWorldTransform(worldTrans: btTransform): void;
public setWorldTransform(worldTrans: btTransform): void;
}
class btDefaultMotionState extends btMotionState {
public m_graphicsWorldTrans: btTransform;
constructor(startTrans?: btTransform, centerOfMassOffset?: btTransform);
}
class btCollisionObject {
public setAnisotropicFriction(
anisotropicFriction: btVector3,
frictionMode: number,
): void;
public getCollisionShape(): btCollisionShape;
public setContactProcessingThreshold(contactProcessingThreshold: number): void;
public getActivationState(): number;
public setActivationState(newState: number): void;
public forceActivationState(newState: number): void;
public activate(forceActivation?: boolean): void;
public isActive(): boolean;
public isKinematicObject(): boolean;
public isStaticObject(): boolean;
public isStaticOrKinematicObject(): boolean;
public setRestitution(rest: number): void;
public setFriction(frict: number): void;
public setRollingFriction(frict: number): void;
public setSpinningFriction(frict: number): void;
public getWorldTransform(): btTransform;
public getCollisionFlags(): number;
public setCollisionFlags(flags: number): void;
public setWorldTransform(worldTrans: btTransform): void;
public setCollisionShape(collisionShape: btCollisionShape): void;
public setCcdMotionThreshold(ccdMotionThreshold: number): void;
public setCcdSweptSphereRadius(radius: number): void;
public getUserIndex(): number;
public setUserIndex(index: number): void;
public setUserIndex2(index: number): void;
public getUserPointer(): Pointer;
public setUserPointer(userPointer: VoidPtr): void;
public getBroadphaseHandle(): btBroadphaseProxy;
public checkCollideWith(co: btCollisionObject): boolean;
public setIgnoreCollisionCheck(co: btCollisionObject, ig: boolean): void;
public setInterpolationWorldTransform(trans: btTransform): void;
public getInterpolationWorldTransform(): btTransform;
}
class btCollisionObjectWrapper { }
class RayResultCallback {
public m_collisionFilterGroup: number;
public m_collisionFilterMask: number;
public m_closestHitFraction: number;
public m_collisionObject: btCollisionObject;
public hasHit(): boolean;
public get_m_collisionObject(): btCollisionObject;
}
class ClosestRayResultCallback extends RayResultCallback {
public m_rayFromWorld: btVector3;
public m_rayToWorld: btVector3;
public m_hitNormalWorld: btVector3;
public m_hitPointWorld: btVector3;
constructor(from: btVector3, to: btVector3);
public get_m_hitPointWorld(): btVector3;
public get_m_hitNormalWorld(): btVector3;
}
class ccClosestRayResultCallback extends ClosestRayResultCallback {
constructor(from: btVector3, to: btVector3);
getHitNormalWorld(): btVector3;
getHitPointWorld(): btVector3;
getCollisionShapePtr(): number;
getClosestHitFraction(): number;
reset(m: number, qt: boolean): void;
}
interface btArray<T> {
clear(): void;
size(): number;
at(n: number): T;
}
interface btNumberArray extends btArray<number> { }
interface btConstCollisionObjectArray extends btArray<btCollisionObject> { }
interface btVector3Array extends btArray<btVector3> { }
class AllHitsRayResultCallback extends RayResultCallback {
public m_rayFromWorld: btVector3;
public m_rayToWorld: btVector3;
public m_hitNormalWorld: btVector3Array;
public m_hitPointWorld: btVector3Array;
constructor(from: btVector3, to: btVector3);
public get_m_hitPointWorld(): btVector3Array;
public get_m_hitNormalWorld(): btVector3Array;
public m_hitFractions: btNumberArray;
public m_collisionObjects: btConstCollisionObjectArray;
}
class ccAllHitsRayResultCallback extends AllHitsRayResultCallback {
constructor(from: btVector3, to: btVector3);
public reset(m: number, qt: boolean): void;
public getHitFractions(): btNumberArray;
public getHitNormalWorld(): btVector3Array;
public getHitPointWorld(): btVector3Array;
public getCollisionShapePtrs(): btNumberArray;
}
class btManifoldPoint {
public m_localPointA: btVector3;
public m_localPointB: btVector3;
public m_positionWorldOnB: btVector3;
public m_positionWorldOnA: btVector3;
public m_normalWorldOnB: btVector3;
public getPositionWorldOnA(): btVector3;
public getPositionWorldOnB(): btVector3;
public getAppliedImpulse(): number;
public getDistance(): number;
public get_m_positionWorldOnB(): btVector3;
public get_m_normalWorldOnB(): btVector3;
public m_distance1: number;
public m_combinedFriction: number;
public m_combinedRollingFriction: number;
public m_combinedRestitution: number;
//BP mod, store contact triangles.
public m_partId0: number;
public m_partId1: number;
public m_index0: number;
public m_index1: number;
// Contact callback support
public m_userPersistentData: any;
public m_userPersistentData0: any;
public m_userPersistentData1: any;
public getShape0(): btCollisionShape;
public getShape1(): btCollisionShape;
}
class ContactResultCallback {
public addSingleResult(
cp: btManifoldPoint,
colObj0Wrap: btCollisionObjectWrapper,
partId0: number,
index0: number,
colObj1Wrap: btCollisionObjectWrapper,
partId1: number,
index1: number,
): number;
}
class ConcreteContactResultCallback extends ContactResultCallback { }
class LocalShapeInfo {
public m_shapePart: number;
public m_triangleIndex: number;
}
class LocalConvexResult {
public m_hitCollisionObject: btCollisionObject;
public m_localShapeInfo: LocalShapeInfo;
public m_hitNormalLocal: btVector3;
public m_hitPointLocal: btVector3;
public m_hitFraction: number;
constructor(
hitCollisionObject: btCollisionObject,
localShapeInfo: LocalShapeInfo,
hitNormalLocal: btVector3,
hitPointLocal: btVector3,
hitFraction: number,
);
}
class ConvexResultCallback {
public m_collisionFilterGroup: number;
public m_collisionFilterMask: number;
public m_closestHitFraction: number;
public hasHit(): boolean;
}
class ClosestConvexResultCallback extends ConvexResultCallback {
public m_convexFromWorld: btVector3;
public m_convexToWorld: btVector3;
public m_hitNormalWorld: btVector3;
public m_hitPointWorld: btVector3;
constructor(convexFromWorld: btVector3, convexToWorld: btVector3);
}
class btCollisionShape {
public setLocalScaling(scaling: btVector3): void;
public getLocalScaling(): btVector3;
public calculateLocalInertia(mass: number, inertia: btVector3): void;
public setMargin(margin: number): void;
public getMargin(): number;
public getUserIndex(): number;
public setUserIndex(i: number): void;
public getUserPointerAsInt(): number;
public setUserPointerAsInt(i: number): void;
public isCompound(): boolean;
public getAabb(t: btTransform, min: btVector3, max: btVector3): void;
///XXX
public getLocalBoundingSphere(): number;
}
class btConvexShape extends btCollisionShape { }
class btEmptyShape extends btCollisionShape { }
class btConvexTriangleMeshShape extends btConvexShape {
constructor(meshInterface: btStridingMeshInterface, calcAabb?: boolean);
}
class btBU_Simplex1to4 extends btConvexShape {
constructor();
addVertex(pt: btVector3): void;
}
class btBoxShape extends btCollisionShape {
constructor(boxHalfExtents: btVector3);
public setMargin(margin: number): void;
public getMargin(): number;
public setUnscaledHalfExtents(boxHalfExtents: btVector3): void;
}
class btCapsuleShape extends btCollisionShape {
constructor(radius: number, height: number);
public setMargin(margin: number): void;
public getMargin(): number;
public getUpAxis(): number;
public getRadius(): number;
public getHalfHeight(): number;
public getImplicitShapeDimensions(): btVector3;
//XXX
public updateProp(r: number, h: number, d: number): void;
}
class btCapsuleShapeX extends btCapsuleShape {
constructor(radius: number, height: number);
public setMargin(margin: number): void;
public getMargin(): number;
}
class btCapsuleShapeZ extends btCapsuleShape {
constructor(radius: number, height: number);
public setMargin(margin: number): void;
public getMargin(): number;
}
class btCylinderShape extends btCollisionShape {
constructor(halfExtents: btVector3);
public setMargin(margin: number): void;
public getMargin(): number;
public getImplicitShapeDimensions(): btVector3;
//XXX
public updateProp(r: number, h: number, d: number): void;
}
class btCylinderShapeX extends btCylinderShape {
constructor(halfExtents: btVector3);
public setMargin(margin: number): void;
public getMargin(): number;
}
class btCylinderShapeZ extends btCylinderShape {
constructor(halfExtents: btVector3);
public setMargin(margin: number): void;
public getMargin(): number;
}
class btSphereShape extends btCollisionShape {
constructor(radius: number);
public setMargin(margin: number): void;
public getMargin(): number;
public setUnscaledRadius(radius: number): void;
}
class btConeShape extends btCollisionShape {
constructor(radius: number, height: number);
public setConeUpIndex(i: number): void;
public setHeight(h: number): void;
public setRadius(r: number): void;
}
class btConvexHullShape extends btCollisionShape {
constructor(points?: number[], numPoints?: number);
public addPoint(point: btVector3, recalculateLocalAABB?: boolean): void;
public setMargin(margin: number): void;
public getMargin(): number;
public getNumVertices(): number;
public initializePolyhedralFeatures(shiftVerticesByMargin: number): boolean;
}
class btShapeHull {
constructor(shape: btConvexShape);
public buildHull(margin: number): boolean;
public numVertices(): number;
public getVertexPointer(): btVector3;
}
class btConeShapeX extends btConeShape {
constructor(radius: number, height: number);
}
class btConeShapeZ extends btConeShape {
constructor(radius: number, height: number);
}
class btCompoundShape extends btCollisionShape {
constructor(enableDynamicAabbTree?: boolean);
public addChildShape(localTransform: btTransform, shape: btCollisionShape): void;
public removeChildShape(shape: btCollisionShape): void;
public removeChildShapeByIndex(childShapeindex: number): void;
public getNumChildShapes(): number;
public getChildShape(index: number): btCollisionShape;
public setMargin(margin: number): void;
public getMargin(): number;
public updateChildTransform(childIndex: number, newChildTransform: btTransform, shouldRecalculateLocalAabb?: boolean): void;
public setMaterial(childShapeindex: number, f: number, r: number, rf?: number, sf?: number, m?: number): void;
}
class btStridingMeshInterface { }
class btTriangleMesh extends btStridingMeshInterface {
constructor(use32bitIndices?: boolean, use4componentVertices?: boolean);
public addTriangle(
vertex0: btVector3,
vertex1: btVector3,
vertex2: btVector3,
removeDuplicateVertices?: boolean,
): void;
}
enum PHY_ScalarType {
PHY_FLOAT,
PHY_DOUBLE,
PHY_INTEGER,
PHY_SHORT,
PHY_FIXEDPOINT88,
PHY_UCHAR,
}
class btConcaveShape extends btCollisionShape { }
class btStaticPlaneShape extends btConcaveShape {
constructor(planeNormal: btVector3, planeConstant: number);
// [Const, Ref] btVector3 getPlaneNormal();
getPlaneNormal(): btVector3;
// void setPlaneConstant(float v);
setPlaneConstant(v: number): void;
}
class btTriangleMeshShape extends btConcaveShape { }
class btBvhTriangleMeshShape extends btTriangleMeshShape {
constructor(
meshInterface: btStridingMeshInterface,
useQuantizedAabbCompression: boolean,
buildBvh?: boolean,
);
}
class btHeightfieldTerrainShape extends btConcaveShape {
constructor(
heightStickWidth: number,
heightStickLength: number,
heightfieldData: VoidPtr,
heightScale: number,
minHeight: number,
maxHeight: number,
upAxis: number,
hdt: string | number,
flipQuadEdges: boolean,
);
public setMargin(margin: number): void;
public getMargin(): number;
}
class btDefaultCollisionConstructionInfo {
// m_persistentManifoldPool: btPoolAllocator;
// m_collisionAlgorithmPool: btPoolAllocator;
m_defaultMaxPersistentManifoldPoolSize: number | 1;
m_defaultMaxCollisionAlgorithmPoolSize: number | 1;
m_customCollisionAlgorithmMaxElementSize: number | 1;
m_useEpaPenetrationAlgorithm: number | 1;
constructor();
}
class btDefaultCollisionConfiguration {
constructor(info?: btDefaultCollisionConstructionInfo);
}
class btPersistentManifold {
constructor();
public getBody0(): btCollisionObject;
public getBody1(): btCollisionObject;
public getNumContacts(): number;
public getContactPoint(index: number): btManifoldPoint;
}
class btDispatcher {
public getNumManifolds(): number;
public getManifoldByIndexInternal(index: number): btPersistentManifold;
}
class btCollisionDispatcher extends btDispatcher {
constructor(conf: btDefaultCollisionConfiguration);
public setDispatcherFlags(flags: number): void;
}
class btOverlappingPairCallback { }
interface btOverlapFilterCallback { }
class ccOverlapFilterCallback implements btOverlapFilterCallback { }
class btOverlappingPairCache {
public setInternalGhostPairCallback(x: btOverlappingPairCallback): void;
getNumOverlappingPairs(): number;
public setOverlapFilterCallback(x: btOverlapFilterCallback): void;
}
class btAxisSweep3 {
constructor(
worldAabbMin: btVector3,
worldAabbMax: btVector3,
maxHandles?: number,
pairCache?: btOverlappingPairCache,
disableRaycastAccelerator?: boolean,
);
}
class btBroadphaseInterface {
getOverlappingPairCache(): btOverlappingPairCache;
}
class btCollisionConfiguration { }
class btDbvtBroadphase extends btBroadphaseInterface {
constructor();
}
interface btBroadphaseProxy {
m_collisionFilterGroup: number;
m_collisionFilterMask: number;
}
class btRigidBodyConstructionInfo {
public m_linearDamping: number;
public m_angularDamping: number;
public m_friction: number;
public m_rollingFriction: number;
public m_restitution: number;
public m_linearSleepingThreshold: number;
public m_angularSleepingThreshold: number;
public m_additionalDamping: boolean;
public m_additionalDampingFactor: number;
public m_additionalLinearDampingThresholdSqr: number;
public m_additionalAngularDampingThresholdSqr: number;
public m_additionalAngularDampingFactor: number;
constructor(
mass: number,
motionState: btMotionState,
collisionShape: btCollisionShape,
localInertia?: btVector3,
);
}
class btRigidBody extends btCollisionObject {
constructor(constructionInfo: btRigidBodyConstructionInfo);
public getCenterOfMassTransform(): btTransform;
public setCenterOfMassTransform(xform: btTransform): void;
public setSleepingThresholds(linear: number, angular: number): void;
public getLinearSleepingThreshold(): number;
public getLinearDamping(): number;
public getAngularDamping(): number;
public setDamping(lin_damping: number, ang_damping: number): void;
public setMassProps(mass: number, inertia: btVector3): void;
public setLinearFactor(linearFactor: btVector3): void;
public applyTorque(torque: btVector3): void;
public applyLocalTorque(torque: btVector3): void;
public applyForce(force: btVector3, rel_pos: btVector3): void;
public applyCentralForce(force: btVector3): void;
public applyCentralLocalForce(force: btVector3): void;
public applyTorqueImpulse(torque: btVector3): void;
public applyImpulse(impulse: btVector3, rel_pos: btVector3): void;
public applyCentralImpulse(impulse: btVector3): void;
public updateInertiaTensor(): void;
public getLinearVelocity(): btVector3;
public getAngularVelocity(): btVector3;
public setLinearVelocity(lin_vel: btVector3): void;
public setAngularVelocity(ang_vel: btVector3): void;
public getMotionState(): btMotionState;
public setMotionState(motionState: btMotionState): void;
public setAngularFactor(angularFactor: btVector3): void;
public getAngularFactor(): btVector3;
public getLinearFactor(): btVector3;
public upcast(colObj: btCollisionObject): btRigidBody;
public getAabb(aabbMin: btVector3, aabbMax: btVector3): void;
public applyGravity(): void;
public getGravity(): btVector3;
public setGravity(acceleration: btVector3): void;
public getBroadphaseProxy(): btBroadphaseProxy;
public getFlags(): number;
public setFlags(flags: number): void;
public wantsSleeping(): boolean;
public clearForces(): void;
public getTotalForce(): btVector3;
public getTotalTorque(): btVector3;
//XXX
public clearState(): void;
}
class btConstraintSetting {
public m_tau: number;
public m_damping: number;
public m_impulseClamp: number;
constructor();
}
class btTypedConstraint {
public enableFeedback(needsFeedback: boolean): void;
public getBreakingImpulseThreshold(): number;
public setBreakingImpulseThreshold(threshold: number): void;
public getParam(num: number, axis: number): number;
public setParam(num: number, value: number, axis: number): void;
}
enum btConstraintParams {
BT_CONSTRAINT_ERP,
BT_CONSTRAINT_STOP_ERP,
BT_CONSTRAINT_CFM,
BT_CONSTRAINT_STOP_CFM,
}
class btPoint2PointConstraint extends btTypedConstraint {
public m_setting: btConstraintSetting;
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
pivotInA: btVector3,
pivotInB: btVector3,
);
constructor(rbA: btRigidBody, pivotInA: btVector3);
public setPivotA(pivotA: btVector3): void;
public setPivotB(pivotB: btVector3): void;
public getPivotInA(): btVector3;
public getPivotInB(): btVector3;
}
class btGeneric6DofConstraint extends btTypedConstraint {
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
frameInA: btTransform,
frameInB: btTransform,
useLinearFrameReferenceFrameA: boolean,
);
constructor(
rbB: btRigidBody,
frameInB: btTransform,
useLinearFrameReferenceFrameB: boolean,
);
public setLinearLowerLimit(linearLower: btVector3): void;
public setLinearUpperLimit(linearUpper: btVector3): void;
public setAngularLowerLimit(angularLower: btVector3): void;
public setAngularUpperLimit(angularUpper: btVector3): void;
public getFrameOffsetA(): btTransform;
}
class btGeneric6DofSpringConstraint extends btGeneric6DofConstraint {
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
frameInA: btTransform,
frameInB: btTransform,
useLinearFrameReferenceFrameA: boolean,
);
constructor(
rbB: btRigidBody,
frameInB: btTransform,
useLinearFrameReferenceFrameB: boolean,
);
public enableSpring(index: number, onOff: boolean): void;
public setStiffness(index: number, stiffness: number): void;
public setDamping(index: number, damping: number): void;
}
class btSequentialImpulseConstraintSolver {
constructor();
}
class btConeTwistConstraint extends btTypedConstraint {
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
rbAFrame: btTransform,
rbBFrame: btTransform,
);
constructor(rbA: btRigidBody, rbAFrame: btTransform);
public setLimit(limitIndex: number, limitValue: number): void;
public setAngularOnly(angularOnly: boolean): void;
public setDamping(damping: number): void;
public enableMotor(b: boolean): void;
public setMaxMotorImpulse(maxMotorImpulse: number): void;
public setMaxMotorImpulseNormalized(maxMotorImpulse: number): void;
public setMotorTarget(q: btQuaternion): void;
public setMotorTargetInConstraintSpace(q: btQuaternion): void;
}
class btHingeConstraint extends btTypedConstraint {
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
pivotInA: btVector3,
pivotInB: btVector3,
axisInA: btVector3,
axisInB: btVector3,
useReferenceFrameA?: boolean,
);
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
rbAFrame: btTransform,
rbBFrame: btTransform,
useReferenceFrameA?: boolean,
);
constructor(
rbA: btRigidBody,
rbAFrame: btTransform,
useReferenceFrameA?: boolean,
);
public setLimit(
low: number,
high: number,
softness: number,
biasFactor: number,
relaxationFactor?: number,
): void;
public enableAngularMotor(
enableMotor: boolean,
targetVelocity: number,
maxMotorImpulse: number,
): void;
public setAngularOnly(angularOnly: boolean): void;
public enableMotor(enableMotor: boolean): void;
public setMaxMotorImpulse(maxMotorImpulse: number): void;
public setMotorTarget(targetAngle: number, dt: number): void;
}
class btSliderConstraint extends btTypedConstraint {
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
frameInA: btTransform,
frameInB: btTransform,
useLinearReferenceFrameA: boolean,
);
constructor(
rbB: btRigidBody,
frameInB: btTransform,
useLinearReferenceFrameA: boolean,
);
public setLowerLinLimit(lowerLimit: number): void;
public setUpperLinLimit(upperLimit: number): void;
public setLowerAngLimit(lowerAngLimit: number): void;
public setUpperAngLimit(upperAngLimit: number): void;
}
class btFixedConstraint extends btTypedConstraint {
constructor(
rbA: btRigidBody,
rbB: btRigidBody,
frameInA: btTransform,
frameInB: btTransform,
);
}
class btConstraintSolver { }
class btDispatcherInfo {
public m_timeStep: number;
public m_stepCount: number;
public m_dispatchFunc: number;
public m_timeOfImpact: number;
public m_useContinuous: boolean;
public m_enableSatConvex: boolean;
public m_enableSPU: boolean;
public m_useEpa: boolean;
public m_allowedCcdPenetration: number;
public m_useConvexConservativeDistanceUtil: boolean;
public m_convexConservativeDistanceThreshold: number;
}
class btCollisionWorld {
public getDispatcher(): btDispatcher;
public rayTest(
rayFromWorld: btVector3,
rayToWorld: btVector3,
resultCallback: RayResultCallback,
): void;
public rayTestSingle(rayFromWorld: btTransform, rayToWorld: btTransform, co: btCollisionObject, cs: btCollisionShape, coTran: btTransform, resultCallback: RayResultCallback);
public getPairCache(): btOverlappingPairCache;
public getDispatchInfo(): btDispatcherInfo;
public addCollisionObject(
collisionObject: btCollisionObject,
collisionFilterGroup?: number,
collisionFilterMask?: number,
): void;
public removeCollisionObject(collisionObject: btCollisionObject): void;
public getBroadphase(): btBroadphaseInterface;
public convexSweepTest(
castShape: btConvexShape,
from: btTransform,
to: btTransform,
resultCallback: ConvexResultCallback,
allowedCcdPenetration: number,
): void;
public contactPairTest(
colObjA: btCollisionObject,
colObjB: btCollisionObject,
resultCallback: ContactResultCallback,
): void;
public contactTest(
colObj: btCollisionObject,
resultCallback: ContactResultCallback,
): void;
public updateSingleAabb(colObj: btCollisionObject): void;
public setDebugDrawer(debugDrawer: btIDebugDraw): void;
public getDebugDrawer(): btIDebugDraw;
public debugDrawWorld(): void;
public debugDrawObject(
worldTransform: btTransform,
shape: btCollisionShape,
color: btVector3,
): void;
public setContactBreakingThreshold(b: number): void;
}
class btContactSolverInfo {
public m_splitImpulse: boolean;
public m_splitImpulsePenetrationThreshold: number;
public m_numIterations: number;
}
class btDynamicsWorld extends btCollisionWorld {
public addAction(action: btActionInterface): void;
public removeAction(action: btActionInterface): void;
public getSolverInfo(): btContactSolverInfo;
}
class btDiscreteDynamicsWorld extends btDynamicsWorld {
constructor(
dispatcher: btDispatcher,
pairCache: btBroadphaseInterface,
constraintSolver: btConstraintSolver,
collisionConfiguration: btCollisionConfiguration,
);
public setGravity(gravity: btVector3): void;
public getGravity(): btVector3;
public addRigidBody(body: btRigidBody): void;
public addRigidBody(body: btRigidBody, group: number, mask: number): void;
public removeRigidBody(body: btRigidBody): void;
public addConstraint(
constraint: btTypedConstraint,
disableCollisionsBetweenLinkedBodies?: boolean,
): void;
public removeConstraint(constraint: btTypedConstraint): void;
public stepSimulation(
timeStep: number,
maxSubSteps?: number,
fixedTimeStep?: number,
): number;
// Contact callback support
public setContactAddedCallback(funcpointer: number): void;
public setContactProcessedCallback(funcpointer: number): void;
public setContactDestroyedCallback(funcpointer: number): void;
}
class ccDiscreteDynamicsWorld extends btDiscreteDynamicsWorld {
public setAllowSleep(v: boolean): void;
public setDeactivationTime(v: number): void;
public setNarrowPhaseMethod(v: number): void;
public setAllowCcdPenetration(v: number): void;
public setCcdCastCheckResponse(v: boolean): void;
public getCcdTriggerRecorder(): btNumberArray;
}
class btVehicleTuning {
public m_suspensionStiffness: number;
public m_suspensionCompression: number;
public m_suspensionDamping: number;
public m_maxSuspensionTravelCm: number;
public m_frictionSlip: number;
public m_maxSuspensionForce: number;
constructor();
}
class btVehicleRaycasterResult {
public m_hitPointInWorld: btVector3;
public m_hitNormalInWorld: btVector3;
public m_distFraction: number;
}
class btVehicleRaycaster {
public castRay(
from: btVector3,
to: btVector3,
result: btVehicleRaycasterResult,
): void;
}
class btDefaultVehicleRaycaster extends btVehicleRaycaster {
// constructor (world: btDynamicsWorld);
public addAction(action: btActionInterface): void;
public removeAction(action: btActionInterface): void;
public getSolverInfo(): btContactSolverInfo;
}
class RaycastInfo {
public m_contactNormalWS: btVector3;
public m_contactPointWS: btVector3;
public m_suspensionLength: number;
public m_hardPointWS: btVector3;
public m_wheelDirectionWS: btVector3;
public m_wheelAxleWS: btVector3;
public m_isInContact: boolean;
public m_groundObject: any;
}
class btWheelInfoConstructionInfo {
public m_chassisConnectionCS: btVector3;
public m_wheelDirectionCS: btVector3;
public m_wheelAxleCS: btVector3;
public m_suspensionRestLength: number;
public m_maxSuspensionTravelCm: number;
public m_wheelRadius: number;
public m_suspensionStiffness: number;
public m_wheelsDampingCompression: number;
public m_wheelsDampingRelaxation: number;
public m_frictionSlip: number;
public m_maxSuspensionForce: number;
public m_bIsFrontWheel: boolean;
}
class btWheelInfo {
public m_suspensionStiffness: number;
public m_frictionSlip: number;
public m_engineForce: number;
public m_rollInfluence: number;
public m_suspensionRestLength1: number;
public m_wheelsRadius: number;
public m_wheelsDampingCompression: number;
public m_wheelsDampingRelaxation: number;
public m_steering: number;