HDK: SIM/SIM_ForceBuoyancy.h Source File

00001 /*
00002  * PROPRIETARY INFORMATION.  This software is proprietary to
00003  * Side Effects Software Inc., and is not to be reproduced,
00004  * transmitted, or disclosed in any way without written permission.
00005  *
00006  * Produced by:
00007  *      Side Effects Software Inc.
00008  *      477 Richmond Street West, Suite 1001
00009  *      Toronto, Ontario
00010  *      Canada   M5V 3E7
00011  *      416-504-9876
00012  */
00013 
00014 #ifndef __SIM_ForceBuoyancy_h__
00015 #define __SIM_ForceBuoyancy_h__
00016 
00017 #include "SIM_API.h"
00018 #include "SIM_Force.h"
00019 #include "SIM_OptionsUser.h"
00020 
00021 /// This is an implementation of the SIM_Force interface. This
00022 /// implementation applies a force in a given direction from an
00023 /// attached scalar field, treating it as a liquid applying an out-going
00024 /// force wherever it is less than 0.
00025 class SIM_API SIM_ForceBuoyancy : public SIM_Force,
00026                                   public SIM_OptionsUser
00027 {
00028 public:
00029     /// Control the force attribute.
00030     GETSET_DATA_FUNCS_V3(SIM_NAME_FORCE, Force);
00031     /// Whether to sample by point, circle, or sphere.
00032     GETSET_DATA_FUNCS_I(SIM_NAME_SAMPLEMODE, SampleMode);
00033 
00034 protected:
00035     explicit             SIM_ForceBuoyancy(const SIM_DataFactory *factory);
00036     virtual             ~SIM_ForceBuoyancy();
00037 
00038     /// Returns the buoyance force at a point - not very accurate
00039     /// as buoyancy is ideally defined over a volume.
00040     /// We end up definining it as a unit volume and just enable/disable
00041     /// the force according to the surface values.
00042     virtual void         getForceSubclass(const SIM_Object &object,
00043                                 const UT_Vector3 &position,
00044                                 const UT_Vector3 &velocity,
00045                                 const UT_Vector3 &angvel,
00046                                 const fpreal mass,
00047                                 UT_Vector3 &force,
00048                                 UT_Vector3 &torque) const;
00049 
00050     virtual void         getForceOnSphereSubclass(const SIM_Object &object,
00051                                 const UT_Vector3 &position,
00052                                 const fpreal radius,
00053                                 const UT_Vector3 &velocity,
00054                                 const UT_Vector3 &angvel,
00055                                 const fpreal mass,
00056                                 UT_Vector3 &force,
00057                                 UT_Vector3 &torque) const;
00058     
00059     virtual SIM_ForceSample     getOptimalForceSamplingSubclass() const;
00060 
00061 private:
00062     static const SIM_DopDescription     *getForceBuoyancyDopDescription();
00063 
00064     DECLARE_STANDARD_GETCASTTOTYPE();
00065     DECLARE_DATAFACTORY(SIM_ForceBuoyancy,
00066                         SIM_Force,
00067                         "Buoyancy Force",
00068                         getForceBuoyancyDopDescription());
00069 };
00070 
00071 #endif
00072