160 lines
5.2 KiB
C++
160 lines
5.2 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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//=============================================================================
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#ifndef PUSHENTITY_H
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#define PUSHENTITY_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "movetype_push.h"
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//-----------------------------------------------------------------------------
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// Purpose: Keeps track of original positions of any entities that are being possibly pushed
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// and handles restoring positions for those objects if the push is aborted
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//-----------------------------------------------------------------------------
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class CPhysicsPushedEntities
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{
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public:
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DECLARE_CLASS_NOBASE( CPhysicsPushedEntities );
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CPhysicsPushedEntities( void );
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// Purpose: Tries to rotate an entity hierarchy, returns the blocker if any
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CBaseEntity *PerformRotatePush( CBaseEntity *pRoot, float movetime );
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// Purpose: Tries to linearly push an entity hierarchy, returns the blocker if any
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CBaseEntity *PerformLinearPush( CBaseEntity *pRoot, float movetime );
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int CountMovedEntities() { return m_rgMoved.Count(); }
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void StoreMovedEntities( physicspushlist_t &list );
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void BeginPush( CBaseEntity *pRootEntity );
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protected:
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// describes the per-frame incremental motion of a rotating MOVETYPE_PUSH
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struct RotatingPushMove_t
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{
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Vector origin;
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matrix3x4_t startLocalToWorld;
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matrix3x4_t endLocalToWorld;
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QAngle amove; // delta orientation
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};
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// Pushers + their original positions also (for touching triggers)
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struct PhysicsPusherInfo_t
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{
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CBaseEntity *m_pEntity;
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Vector m_vecStartAbsOrigin;
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};
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// Pushed entities + various state related to them being pushed
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struct PhysicsPushedInfo_t
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{
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CBaseEntity *m_pEntity;
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Vector m_vecStartAbsOrigin;
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trace_t m_Trace;
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bool m_bBlocked;
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bool m_bPusherIsGround;
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};
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// Adds the specified entity to the list
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void AddEntity( CBaseEntity *ent );
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// If a move fails, restores all entities to their original positions
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void RestoreEntities( );
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// Compute the direction to move the rotation blocker
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void ComputeRotationalPushDirection( CBaseEntity *pBlocker, const RotatingPushMove_t &rotPushMove, Vector *pMove, CBaseEntity *pRoot );
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// Speculatively checks to see if all entities in this list can be pushed
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bool SpeculativelyCheckPush( PhysicsPushedInfo_t &info, const Vector &vecAbsPush, bool bRotationalPush );
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// Speculatively checks to see if all entities in this list can be pushed
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virtual bool SpeculativelyCheckRotPush( const RotatingPushMove_t &rotPushMove, CBaseEntity *pRoot );
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// Speculatively checks to see if all entities in this list can be pushed
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virtual bool SpeculativelyCheckLinearPush( const Vector &vecAbsPush );
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// Registers a blockage
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CBaseEntity *RegisterBlockage();
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// Some fixup for objects pushed by rotating objects
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virtual void FinishRotPushedEntity( CBaseEntity *pPushedEntity, const RotatingPushMove_t &rotPushMove );
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// Commits the speculative movement
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void FinishPush( bool bIsRotPush = false, const RotatingPushMove_t *pRotPushMove = NULL );
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// Generates a list of all entities potentially blocking all pushers
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void GenerateBlockingEntityList();
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void GenerateBlockingEntityListAddBox( const Vector &vecMoved );
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// Purpose: Gets a list of all entities hierarchically attached to the root
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void SetupAllInHierarchy( CBaseEntity *pParent );
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// Unlink + relink the pusher list so we can actually do the push
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void UnlinkPusherList( int *pPusherHandles );
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void RelinkPusherList( int *pPusherHandles );
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// Causes all entities in the list to touch triggers from their prev position
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void FinishPushers();
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// Purpose: Rotates the root entity, fills in the pushmove structure
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void RotateRootEntity( CBaseEntity *pRoot, float movetime, RotatingPushMove_t &rotation );
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// Purpose: Linearly moves the root entity
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void LinearlyMoveRootEntity( CBaseEntity *pRoot, float movetime, Vector *pAbsPushVector );
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bool IsPushedPositionValid( CBaseEntity *pBlocker );
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protected:
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CUtlVector<PhysicsPusherInfo_t> m_rgPusher;
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CUtlVector<PhysicsPushedInfo_t> m_rgMoved;
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int m_nBlocker;
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bool m_bIsUnblockableByPlayer;
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Vector m_rootPusherStartLocalOrigin;
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QAngle m_rootPusherStartLocalAngles;
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float m_rootPusherStartLocaltime;
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float m_flMoveTime;
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friend class CPushBlockerEnum;
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};
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class CTraceFilterPushMove : public CTraceFilterSimple
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{
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DECLARE_CLASS( CTraceFilterPushMove, CTraceFilterSimple );
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public:
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CTraceFilterPushMove( CBaseEntity *pEntity, int nCollisionGroup )
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: CTraceFilterSimple( pEntity, nCollisionGroup )
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{
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m_pRootParent = pEntity->GetRootMoveParent();
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}
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bool ShouldHitEntity( IHandleEntity *pHandleEntity, int contentsMask )
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{
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Assert( dynamic_cast<CBaseEntity*>(pHandleEntity) );
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CBaseEntity *pTestEntity = static_cast<CBaseEntity*>(pHandleEntity);
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if ( UTIL_EntityHasMatchingRootParent( m_pRootParent, pTestEntity ) )
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return false;
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if ( pTestEntity->GetMoveType() == MOVETYPE_VPHYSICS &&
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pTestEntity->VPhysicsGetObject() && pTestEntity->VPhysicsGetObject()->IsMoveable() )
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return false;
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return BaseClass::ShouldHitEntity( pHandleEntity, contentsMask );
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}
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private:
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CBaseEntity *m_pRootParent;
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};
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extern CPhysicsPushedEntities *g_pPushedEntities;
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#endif // PUSHENTITY_H
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