Coefficients mass and length for entire wire mass per

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Unformatted text preview: ARRAY<TV>& force); void Add_External_Forces(ARRAY<TV>& force); T Maximum_Dt(); void Write_Output(const int frame); void Set_Kinematic_Positions(const T time,ARRAY_VIEW<TV>& X); void Set_Kinematic_Velocities(const T time,ARRAY_VIEW<TV>& V); void Clear_Values_Of_Kinematic_Particles(ARRAY<TV>& array); }; } CS838 Advanced Modeling and Simulation namespace PhysBAM{ template<class T> class SIMULATION_LAYOUT { public: typedef VECTOR<T,3> TV; const STREAM_TYPE stream_type; const int n; const T youngs_modulus,damping_coefficient const T wire_mass,wire_restlength; ARRAY<T> mass,restlength; // // // // Number of particles in wire mesh Elasticity and damping coefficients Mass and length for entire wire Mass (per each particle), restlength (per each spring) GEOMETRY_PARTICLES<TV> particles; DEFORMABLE_GEOMETRY_COLLECTION<TV> collection; const int number_of_frames; const T frame_time; const T CFL_number; // Total number of frames // Frame (snapshot) interval // CFL number (not to exceed 1) SEGMENTED_CURVE<TV>* wire_curve; FREE_PARTICLES<TV>* wire_particles; SIMULATION_LAYOUT(const STREAM_TYPE stream_type_input); void Initialize(); void Add_Elastic_Forces(const ARRAY_VIEW<TV>& X,ARRAY<TV>& force); void Add_Damping_Forces(const ARRAY_VIEW<TV>& X,const ARRAY_VIEW<TV>& V, ARRAY<TV>& force); void Add_External_Forces(ARRAY<TV>& force); T Maximum_Dt(); void Write_Output(const int frame); void Set_Kinematic_Positions(const T time,ARRAY_VIEW<TV>& X); void Set_Kinematic_Velocities(const T time,ARRAY_VIEW<TV>& V); void Clear_Values_Of_Kinematic_Particles(ARRAY<TV>& array); }; } CS838 Advanced Modeling and Simulation namespace PhysBAM{ template<class T> class SIMULATION_LAYOUT { public: typedef VECTOR<T,3> TV; const STREAM_TYPE stream_type; const int n; const T youngs_modulus,damping_coefficient const T wire_mass,wire_restlength; ARRAY<T> mass,restlength; // // // // Number of particles in wire mesh Elasticity and damping coefficients Mass and length for entire wire Mass (per each particle), restlength (per each spring) GEOMETRY_PARTICLES<TV> particles; DEFORMABLE_GEOMETRY_COLLECTION<TV> collection; const int number_of_frames; const T frame_time; const T CFL_number; // Total number of frames // Frame (snapshot) interval // CFL number (not to exceed 1) SEGMENTED_CURVE<TV>* wire_curve; FREE_PARTICLES<TV>* wire_particles; SIMULATION_LAYOUT(const STREAM_TYPE stream_type_input); void Initialize(); void Add_Elastic_Forces(const ARRAY_VIEW<TV>& X,ARRAY<TV>& force); void Add_Damping_Forces(const ARRAY_VIEW<TV>& X,const ARRAY_VIEW<TV>& V, ARRAY<TV>& force); void Add_External_Forces(ARRAY<TV>& force); T Maximum_Dt(); void Write_Output(const int frame); void Set_Kinematic_Positions(const T time,ARRAY_VIEW<TV>& X); void Set_Kinematic_Velocities(const T time,ARRAY_VIEW<TV>& V); void Clear_Values_Of_Kinematic_Particles(ARRAY<TV>& array); }; } CS838 Advanced Modeling and Simulation namespace PhysBAM{ template<class T> class SIMULATION_LAYOUT { public: typedef VECTOR<T,3> TV; const STREAM_TYPE stream_type; template<class T> const int n; // Number of particles in stream_type_input) SIMULATION_LAYOUT<T>::SIMULATION_LAYOUT(const...
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This note was uploaded on 09/04/2012 for the course CS 838 taught by Professor Staff during the Fall '08 term at University of Wisconsin.

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