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openmw/components/nif/physics.hpp

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C++

#ifndef OPENMW_COMPONENTS_NIF_PHYSICS_HPP
#define OPENMW_COMPONENTS_NIF_PHYSICS_HPP
#include "niftypes.hpp"
#include "record.hpp"
#include "recordptr.hpp"
#include <osg/Quat>
#include <osg/Plane>
#include <osg/Vec3f>
#include <osg/Vec4f>
#include <cstdint>
#include <vector>
// This header contains certain record definitions
// specific to Bethesda implementation of Havok physics
namespace Nif
{
class NIFStream;
class Reader;
/// Non-record data types
struct bhkWorldObjCInfoProperty
{
uint32_t mData;
uint32_t mSize;
uint32_t mCapacityAndFlags;
void read(NIFStream* nif);
};
enum class BroadPhaseType : uint8_t
{
BroadPhase_Invalid = 0,
BroadPhase_Entity = 1,
BroadPhase_Phantom = 2,
BroadPhase_Border = 3
};
struct bhkWorldObjectCInfo
{
BroadPhaseType mPhaseType;
bhkWorldObjCInfoProperty mProperty;
void read(NIFStream* nif);
};
struct HavokMaterial
{
uint32_t mMaterial;
void read(NIFStream* nif);
};
struct HavokFilter
{
uint8_t mLayer;
uint8_t mFlags;
uint16_t mGroup;
void read(NIFStream* nif);
};
struct hkSubPartData
{
HavokMaterial mHavokMaterial;
uint32_t mNumVertices;
HavokFilter mHavokFilter;
void read(NIFStream* nif);
};
enum class hkResponseType : uint8_t
{
Response_Invalid = 0,
Response_SimpleContact = 1,
Response_Reporting = 2,
Response_None = 3
};
struct bhkEntityCInfo
{
hkResponseType mResponseType;
uint16_t mProcessContactDelay;
void read(NIFStream* nif);
};
struct hkpMoppCode
{
osg::Vec4f mOffset;
uint8_t mBuildType;
std::vector<uint8_t> mData;
void read(NIFStream* nif);
};
struct TriangleData
{
std::array<uint16_t, 3> mTriangle;
uint16_t mWeldingInfo;
osg::Vec3f mNormal;
void read(NIFStream* nif);
};
struct bhkMeshMaterial
{
HavokMaterial mHavokMaterial;
HavokFilter mHavokFilter;
void read(NIFStream* nif);
};
struct bhkQsTransform
{
osg::Vec4f mTranslation;
osg::Quat mRotation;
void read(NIFStream* nif);
};
struct bhkCMSBigTri
{
std::array<uint16_t, 3> mTriangle;
uint32_t mMaterial;
uint16_t mWeldingInfo;
void read(NIFStream* nif);
};
struct bhkCMSChunk
{
osg::Vec4f mTranslation;
uint32_t mMaterialIndex;
uint16_t mReference;
uint16_t mTransformIndex;
std::vector<uint16_t> mVertices;
std::vector<uint16_t> mIndices;
std::vector<uint16_t> mStrips;
std::vector<uint16_t> mWeldingInfos;
void read(NIFStream* nif);
};
enum class hkMotionType : uint8_t
{
Motion_Invalid = 0,
Motion_Dynamic = 1,
Motion_SphereInertia = 2,
Motion_SphereStabilized = 3,
Motion_BoxInertia = 4,
Motion_BoxStabilized = 5,
Motion_Keyframed = 6,
Motion_Fixed = 7,
Motion_ThinBox = 8,
Motion_Character = 9
};
enum class hkDeactivatorType : uint8_t
{
Deactivator_Invalid = 0,
Deactivator_Never = 1,
Deactivator_Spatial = 2
};
enum class hkSolverDeactivation : uint8_t
{
SolverDeactivation_Invalid = 0,
SolverDeactivation_Off = 1,
SolverDeactivation_Low = 2,
SolverDeactivation_Medium = 3,
SolverDeactivation_High = 4,
SolverDeactivation_Max = 5
};
enum class hkQualityType : uint8_t
{
Quality_Invalid = 0,
Quality_Fixed = 1,
Quality_Keyframed = 2,
Quality_Debris = 3,
Quality_Moving = 4,
Quality_Critical = 5,
Quality_Bullet = 6,
Quality_User = 7,
Quality_Character = 8,
Quality_KeyframedReport = 9
};
struct bhkRigidBodyCInfo
{
HavokFilter mHavokFilter;
hkResponseType mResponseType;
uint16_t mProcessContactDelay;
osg::Vec4f mTranslation;
osg::Quat mRotation;
osg::Vec4f mLinearVelocity;
osg::Vec4f mAngularVelocity;
Matrix3 mInertiaTensor;
osg::Vec4f mCenter;
float mMass;
float mLinearDamping;
float mAngularDamping;
float mTimeFactor{ 1.f };
float mGravityFactor{ 1.f };
float mFriction;
float mRollingFrictionMult;
float mRestitution;
float mMaxLinearVelocity;
float mMaxAngularVelocity;
float mPenetrationDepth;
hkMotionType mMotionType;
hkDeactivatorType mDeactivatorType;
bool mEnableDeactivation{ true };
hkSolverDeactivation mSolverDeactivation;
hkQualityType mQualityType;
uint8_t mAutoRemoveLevel;
uint8_t mResponseModifierFlags;
uint8_t mNumContactPointShapeKeys;
bool mForceCollidedOntoPPU;
void read(NIFStream* nif);
};
enum class ConstraintPriority : uint32_t
{
Priority_Invalid = 0,
Priority_PhysicsTime = 1,
Priority_TimeOfImpact = 3
};
struct bhkConstraintCInfo
{
bhkEntityPtr mEntityA;
bhkEntityPtr mEntityB;
ConstraintPriority mPriority;
void read(NIFStream* nif);
void post(Reader& nif);
};
enum class hkMotorType : uint8_t
{
Motor_None = 0,
Motor_Position = 1,
Motor_Velocity = 2,
Motor_SpringDamper = 3
};
struct bhkPositionConstraintMotor
{
float mMinForce, mMaxForce;
float mTau;
float mDamping;
float mProportionalRecoveryVelocity;
float mConstantRecoveryVelocity;
bool mEnabled;
void read(NIFStream* nif);
};
struct bhkVelocityConstraintMotor
{
float mMinForce, mMaxForce;
float mTau;
float mTargetVelocity;
bool mUseVelocityTarget;
bool mEnabled;
void read(NIFStream* nif);
};
struct bhkSpringDamperConstraintMotor
{
float mMinForce, mMaxForce;
float mSpringConstant;
float mSpringDamping;
bool mEnabled;
void read(NIFStream* nif);
};
struct bhkConstraintMotorCInfo
{
hkMotorType mType;
bhkPositionConstraintMotor mPositionMotor;
bhkVelocityConstraintMotor mVelocityMotor;
bhkSpringDamperConstraintMotor mSpringDamperMotor;
void read(NIFStream* nif);
};
struct bhkRagdollConstraintCInfo
{
struct Data
{
osg::Vec4f mPivot;
osg::Vec4f mPlane;
osg::Vec4f mTwist;
osg::Vec4f mMotor;
};
Data mDataA;
Data mDataB;
float mConeMaxAngle;
float mPlaneMinAngle, mPlaneMaxAngle;
float mTwistMinAngle, mTwistMaxAngle;
float mMaxFriction;
bhkConstraintMotorCInfo mMotor;
void read(NIFStream* nif);
};
struct bhkHingeConstraintCInfo
{
struct HingeData
{
osg::Vec4f mPivot;
osg::Vec4f mAxis;
osg::Vec4f mPerpAxis1;
osg::Vec4f mPerpAxis2;
};
HingeData mDataA;
HingeData mDataB;
void read(NIFStream* nif);
};
struct bhkLimitedHingeConstraintCInfo
{
struct HingeData
{
osg::Vec4f mPivot;
osg::Vec4f mAxis;
osg::Vec4f mPerpAxis1;
osg::Vec4f mPerpAxis2;
};
HingeData mDataA;
HingeData mDataB;
float mMinAngle, mMaxAngle;
float mMaxFriction;
bhkConstraintMotorCInfo mMotor;
void read(NIFStream* nif);
};
struct bhkBallAndSocketConstraintCInfo
{
osg::Vec4f mPivotA, mPivotB;
void read(NIFStream* nif);
};
struct bhkStiffSpringConstraintCInfo
{
osg::Vec4f mPivotA, mPivotB;
float mLength;
void read(NIFStream* nif);
};
struct bhkPrismaticConstraintCInfo
{
struct Data
{
osg::Vec4f mSliding;
osg::Vec4f mRotation;
osg::Vec4f mPlane;
osg::Vec4f mPivot;
};
Data mDataA;
Data mDataB;
float mMinDistance, mMaxDistance;
float mFriction;
bhkConstraintMotorCInfo mMotor;
void read(NIFStream* nif);
};
enum class hkConstraintType : uint32_t
{
BallAndSocket = 0,
Hinge = 1,
LimitedHinge = 2,
Prismatic = 6,
Ragdoll = 7,
StiffSpring = 8,
Malleable = 13,
};
struct bhkWrappedConstraintDataBase
{
hkConstraintType mType;
bhkConstraintCInfo mInfo;
bhkBallAndSocketConstraintCInfo mBallAndSocketInfo;
bhkHingeConstraintCInfo mHingeInfo;
bhkLimitedHingeConstraintCInfo mLimitedHingeInfo;
bhkPrismaticConstraintCInfo mPrismaticInfo;
bhkRagdollConstraintCInfo mRagdollInfo;
bhkStiffSpringConstraintCInfo mStiffSpringInfo;
};
struct bhkMalleableConstraintCInfo : bhkWrappedConstraintDataBase
{
float mTau;
float mDamping;
float mStrength;
void read(NIFStream* nif);
};
struct bhkWrappedConstraintData : bhkWrappedConstraintDataBase
{
bhkMalleableConstraintCInfo mMalleableInfo;
void read(NIFStream* nif);
};
struct bhkConstraintChainCInfo
{
bhkRigidBodyList mEntities;
bhkConstraintCInfo mInfo;
void read(NIFStream* nif);
void post(Reader& nif);
};
/// Record types
// Abstract Bethesda Havok object
struct bhkRefObject : public Record
{
};
// Abstract serializable Bethesda Havok object
struct bhkSerializable : public bhkRefObject
{
};
// Abstract narrowphase collision detection object
struct bhkShape : public bhkSerializable
{
};
// Abstract bhkShape collection
struct bhkShapeCollection : public bhkShape
{
};
// Abstract physics system
struct bhkSystem : public Record
{
};
// Generic collision object
struct NiCollisionObject : public Record
{
// The node that references this object
NiAVObjectPtr mTarget;
void read(NIFStream* nif) override { mTarget.read(nif); }
void post(Reader& nif) override { mTarget.post(nif); }
};
// Bethesda Havok-specific collision object
struct bhkCollisionObject : public NiCollisionObject
{
uint16_t mFlags;
bhkWorldObjectPtr mBody;
void read(NIFStream* nif) override;
void post(Reader& nif) override
{
NiCollisionObject::post(nif);
mBody.post(nif);
}
};
struct bhkNPCollisionObject : NiCollisionObject
{
uint16_t mFlags;
bhkSystemPtr mData;
uint32_t mBodyID;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
struct bhkBlendCollisionObject : bhkCollisionObject
{
float mHeirGain;
float mVelGain;
void read(NIFStream* nif) override;
};
struct bhkPhysicsSystem : public bhkSystem
{
std::vector<uint8_t> mData;
void read(NIFStream* nif) override;
};
struct bhkRagdollSystem : public bhkSystem
{
std::vector<uint8_t> mData;
void read(NIFStream* nif) override;
};
// Abstract Havok shape info record
struct bhkWorldObject : public bhkSerializable
{
bhkShapePtr mShape;
HavokFilter mHavokFilter;
bhkWorldObjectCInfo mWorldObjectInfo;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
// Abstract
struct bhkEntity : public bhkWorldObject
{
bhkEntityCInfo mInfo;
void read(NIFStream* nif) override;
};
// Bethesda extension of hkpBvTreeShape
// hkpBvTreeShape adds a bounding volume tree to an hkpShapeCollection
struct bhkBvTreeShape : public bhkShape
{
bhkShapePtr mShape;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
// bhkBvTreeShape with Havok MOPP code
struct bhkMoppBvTreeShape : public bhkBvTreeShape
{
float mScale;
hkpMoppCode mMopp;
void read(NIFStream* nif) override;
};
// Bethesda triangle strip-based Havok shape collection
struct bhkNiTriStripsShape : public bhkShape
{
HavokMaterial mHavokMaterial;
float mRadius;
uint32_t mGrowBy;
osg::Vec4f mScale{ 1.f, 1.f, 1.f, 0.f };
NiTriStripsDataList mData;
std::vector<HavokFilter> mHavokFilters;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
// Bethesda packed triangle strip-based Havok shape collection
struct bhkPackedNiTriStripsShape : public bhkShapeCollection
{
std::vector<hkSubPartData> mSubshapes;
uint32_t mUserData;
float mRadius;
osg::Vec4f mScale;
hkPackedNiTriStripsDataPtr mData;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
// bhkPackedNiTriStripsShape data block
struct hkPackedNiTriStripsData : public bhkShapeCollection
{
std::vector<TriangleData> mTriangles;
std::vector<osg::Vec3f> mVertices;
std::vector<hkSubPartData> mSubshapes;
void read(NIFStream* nif) override;
};
// Abstract
struct bhkSphereRepShape : public bhkShape
{
HavokMaterial mHavokMaterial;
void read(NIFStream* nif) override;
};
// Abstract
struct bhkConvexShape : public bhkSphereRepShape
{
float mRadius;
void read(NIFStream* nif) override;
};
// A list of convex shapes sharing the same properties
struct bhkConvexListShape : public bhkShape
{
bhkShapeList mSubShapes;
HavokMaterial mMaterial;
float mRadius;
bhkWorldObjCInfoProperty mChildShapeProperty;
bool mUseCachedAABB;
float mClosestPointMinDistance;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
struct bhkConvexSweepShape : bhkShape
{
bhkConvexShapePtr mShape;
HavokMaterial mMaterial;
float mRadius;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
// A convex shape built from vertices
struct bhkConvexVerticesShape : public bhkConvexShape
{
bhkWorldObjCInfoProperty mVerticesProperty;
bhkWorldObjCInfoProperty mNormalsProperty;
std::vector<osg::Vec4f> mVertices;
std::vector<osg::Vec4f> mNormals;
void read(NIFStream* nif) override;
};
struct bhkConvexTransformShape : public bhkShape
{
bhkShapePtr mShape;
HavokMaterial mHavokMaterial;
float mRadius;
osg::Matrixf mTransform;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
// A box
struct bhkBoxShape : public bhkConvexShape
{
osg::Vec3f mExtents;
void read(NIFStream* nif) override;
};
// A capsule
struct bhkCapsuleShape : public bhkConvexShape
{
osg::Vec3f mPoint1, mPoint2;
float mRadius1, mRadius2;
void read(NIFStream* nif) override;
};
// A cylinder
struct bhkCylinderShape : public bhkConvexShape
{
osg::Vec4f mVertexA, mVertexB;
float mCylinderRadius;
void read(NIFStream* nif) override;
};
// Abstract shape that can collide with an array of spheres
struct bhkHeightfieldShape : bhkShape
{
HavokMaterial mHavokMaterial;
void read(NIFStream* nif) override;
};
// A plane bounded by an AABB
struct bhkPlaneShape : bhkHeightfieldShape
{
osg::Plane mPlane;
osg::Vec4f mExtents;
osg::Vec4f mCenter;
void read(NIFStream* nif) override;
};
// A sphere
using bhkSphereShape = bhkConvexShape;
// Multiple spheres
struct bhkMultiSphereShape : bhkSphereRepShape
{
bhkWorldObjCInfoProperty mShapeProperty;
std::vector<osg::BoundingSpheref> mSpheres;
void read(NIFStream* nif) override;
};
// A list of shapes
struct bhkListShape : public bhkShapeCollection
{
bhkShapeList mSubshapes;
HavokMaterial mHavokMaterial;
bhkWorldObjCInfoProperty mChildShapeProperty;
bhkWorldObjCInfoProperty mChildFilterProperty;
std::vector<HavokFilter> mHavokFilters;
void read(NIFStream* nif) override;
};
struct bhkCompressedMeshShape : public bhkShape
{
NiAVObjectPtr mTarget;
uint32_t mUserData;
float mRadius;
osg::Vec4f mScale;
bhkCompressedMeshShapeDataPtr mData;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
struct bhkCompressedMeshShapeData : public bhkRefObject
{
uint32_t mBitsPerIndex, mBitsPerWIndex;
uint32_t mMaskWIndex, mMaskIndex;
float mError;
osg::Vec4f mAabbMin, mAabbMax;
uint8_t mWeldingType;
uint8_t mMaterialType;
std::vector<bhkMeshMaterial> mMaterials;
std::vector<bhkQsTransform> mChunkTransforms;
std::vector<osg::Vec4f> mBigVerts;
std::vector<bhkCMSBigTri> mBigTris;
std::vector<bhkCMSChunk> mChunks;
void read(NIFStream* nif) override;
};
struct bhkRigidBody : public bhkEntity
{
bhkRigidBodyCInfo mInfo;
bhkSerializableList mConstraints;
uint32_t mBodyFlags;
void read(NIFStream* nif) override;
};
struct bhkSimpleShapePhantom : public bhkWorldObject
{
osg::Matrixf mTransform;
void read(NIFStream* nif) override;
};
// Abstract constraint
struct bhkConstraint : public bhkSerializable
{
bhkConstraintCInfo mInfo;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
struct bhkRagdollConstraint : public bhkConstraint
{
bhkRagdollConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkHingeConstraint : public bhkConstraint
{
bhkHingeConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkLimitedHingeConstraint : public bhkConstraint
{
bhkLimitedHingeConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkBallAndSocketConstraint : bhkConstraint
{
bhkBallAndSocketConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkBallSocketConstraintChain : bhkSerializable
{
std::vector<bhkBallAndSocketConstraintCInfo> mConstraints;
float mTau;
float mDamping;
float mConstraintForceMixing;
float mMaxErrorDistance;
bhkConstraintChainCInfo mConstraintChainInfo;
void read(NIFStream* nif) override;
void post(Reader& nif) override;
};
struct bhkStiffSpringConstraint : bhkConstraint
{
bhkStiffSpringConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkPrismaticConstraint : bhkConstraint
{
bhkPrismaticConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkMalleableConstraint : bhkConstraint
{
bhkMalleableConstraintCInfo mConstraint;
void read(NIFStream* nif) override;
};
struct bhkBreakableConstraint : bhkConstraint
{
bhkWrappedConstraintData mConstraint;
float mThreshold;
bool mRemoveWhenBroken;
void read(NIFStream* nif) override;
};
} // Namespace
#endif