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214 lines
5.1 KiB
C++
214 lines
5.1 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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// $NoKeywords: $
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//=============================================================================//
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#ifndef SHEETSIMULATOR_H
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#define SHEETSIMULATOR_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "mathlib/mathlib.h"
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#include "mathlib/vector.h"
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#include "utlvector.h"
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// Uncomment this for client-side simulation
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//#define CLIENT_SIDE_SIMULATION 1
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//-----------------------------------------------------------------------------
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// Simulates a sheet
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//-----------------------------------------------------------------------------
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class CGameTrace;
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typedef CGameTrace trace_t;
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//struct trace_t;
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typedef void (*TraceLineFunc_t)(const Vector &vecStart, const Vector &vecEnd,
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unsigned int mask, int collisionGroup, trace_t *ptr);
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typedef void (*TraceHullFunc_t)(const Vector &vecStart, const Vector &vecEnd,
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const Vector &hullMin, const Vector &hullMax,
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unsigned int mask, int collisionGroup, trace_t *ptr);
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class CSheetSimulator
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{
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public:
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CSheetSimulator( TraceLineFunc_t traceline, TraceHullFunc_t traceHull );
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~CSheetSimulator();
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void Init( int w, int h, int fixedPointCount );
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// orientation
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void SetPosition( const Vector& origin, const QAngle& angles );
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// Makes a spring
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void AddSpring( int p1, int p2, float restLength );
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void AddFixedPointSpring( int fixedPoint, int p, float restLength );
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// spring constants....
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void SetPointSpringConstant( float constant );
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void SetFixedSpringConstant( float constant );
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// Used for both kinds of springs
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void SetSpringDampConstant( float damp );
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void SetViscousDrag( float drag );
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// Sets the collision group
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void SetCollisionGroup( int group );
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// Sets the bounding box used for collision vs world
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void SetBoundingBox( Vector& mins, Vector& maxs );
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// Computes the bounding box
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void ComputeBounds( Vector& mins, Vector& maxs );
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// simulation
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void Simulate( float dt );
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void Simulate( float dt, int steps );
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// get at the points
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int NumHorizontal() const;
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int NumVertical() const;
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int PointCount() const;
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// Fixed points
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Vector& GetFixedPoint( int i );
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// Point masses
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const Vector& GetPoint( int x, int y ) const;
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const Vector& GetPoint( int i ) const;
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// For iterative collision detection
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void DetectCollision( int i, float flOffset );
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void InitPosition( int i );
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// For offseting the control points
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void SetControlPointOffset( const Vector& offset );
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// Gravity
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void SetGravityConstant( float g );
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void AddGravityForce( int particle );
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protected:
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struct Particle_t
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{
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float m_Mass;
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Vector m_Position;
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Vector m_Velocity;
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Vector m_Force;
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int m_Collided;
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int m_CollisionPlane;
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float m_CollisionDist;
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};
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struct Spring_t
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{
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int m_Particle1;
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int m_Particle2;
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float m_RestLength;
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};
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inline int NumParticles() const
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{
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return m_HorizontalCount * m_VerticalCount;
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}
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// simulator
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void EulerStep( float dt );
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void ComputeControlPoints();
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void ClearForces();
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void ComputeForces();
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void TestVertAgainstPlane( int vert, int plane, bool bFarTest = true );
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void SatisfyCollisionConstraints();
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void DetermineBestCollisionPlane( bool bFarTest = true );
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void ClampPointsToCollisionPlanes();
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// How many particles horiz + vert?
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int m_HorizontalCount;
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int m_VerticalCount;
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// The particles
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Particle_t* m_Particle;
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// Output position after simulation
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Vector* m_OutputPosition;
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// fixed points
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int m_FixedPointCount;
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Vector* m_pFixedPoint;
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Vector* m_ControlPoints;
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CUtlVector<Spring_t> m_Springs;
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CUtlVector<int> m_Gravity;
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// raycasting methods
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TraceLineFunc_t m_TraceLine;
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TraceHullFunc_t m_TraceHull;
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// Spring constants
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float m_FixedSpringConstant;
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float m_PointSpringConstant;
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float m_DampConstant;
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float m_ViscousDrag;
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// Collision group
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int m_CollisionGroup;
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// position + orientation
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Vector m_Origin;
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QAngle m_Angles;
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// collision box
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Vector m_FrustumBoxMin;
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Vector m_FrustumBoxMax;
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// Collision planes
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cplane_t* m_pCollisionPlanes;
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bool* m_pValidCollisionPlane;
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// Control point offset
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Vector m_ControlPointOffset;
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// Gravity
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float m_GravityConstant;
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};
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//-----------------------------------------------------------------------------
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// Class to help dealing with the iterative computation
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//-----------------------------------------------------------------------------
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class CIterativeSheetSimulator : public CSheetSimulator
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{
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public:
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CIterativeSheetSimulator( TraceLineFunc_t traceline, TraceHullFunc_t traceHull );
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void BeginSimulation( float dt, int steps, int substeps, int collisionCount );
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// Returns true if it just did a simulation step
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bool Think( );
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bool IsDone() const { return m_SimulationSteps == 0; }
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int StepsRemaining( ) const { return m_SimulationSteps; }
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private:
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CIterativeSheetSimulator( const CIterativeSheetSimulator & ); // not defined, not accessible
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// Iterative collision detection
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void DetectCollisions( void );
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float m_TimeStep;
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float m_SubSteps;
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char m_TotalSteps;
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char m_SimulationSteps;
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char m_CollisionCount;
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char m_CurrentCollisionPt;
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bool m_InitialPass;
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};
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#endif // TF_SHIELD_SHARED_H
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