ENH: Store pointers in Collision Detect & Handling

To geometries, objects, collision data

Base/Collision/CollisionDetection/imstkCollisionDetection.cpp

@@ -26,7 +26,9 @@
 #include "imstkMeshToMeshCD.h"
 
 #include "imstkCollidingObject.h"
-#include "imstkGeometry.h"
+#include "imstkPlane.h"
+#include "imstkSphere.h"
+#include "imstkSurfaceMesh.h"
 
 #include <g3log/g3log.hpp>
 
@@ -35,42 +37,53 @@ namespace imstk {
 std::shared_ptr<CollisionDetection>
 CollisionDetection::make_collision_detection(const Type& type,
                                              std::shared_ptr<CollidingObject> objA,
-                                             std::shared_ptr<CollidingObject> objB)
+                                             std::shared_ptr<CollidingObject> objB,
+                                             CollisionData &CDA,
+                                             CollisionData &CDB)
 {
     switch (type)
     {
     case Type::PlaneToSphere:
     {
-        if (objA->getCollidingGeometry()->getType() != Geometry::Type::Plane ||
-            objB->getCollidingGeometry()->getType() != Geometry::Type::Sphere)
+        auto plane = std::dynamic_pointer_cast<Plane>(objA->getCollidingGeometry());
+        auto sphere = std::dynamic_pointer_cast<Sphere>(objB->getCollidingGeometry());
+
+        // Geometries check
+        if (plane == nullptr || sphere == nullptr)
         {
             LOG(WARNING) << "CollisionDetection::make_collision_detection error: "
                          << "invalid object geometries for PlaneToSphere collision detection.";
             return nullptr;
         }
-        return std::make_shared<PlaneToSphereCD>();
+        return std::make_shared<PlaneToSphereCD>(plane, sphere, CDA, CDB);
     }break;
     case Type::SphereToSphere:
     {
-        if (objA->getCollidingGeometry()->getType() != Geometry::Type::Sphere ||
-            objB->getCollidingGeometry()->getType() != Geometry::Type::Sphere)
+        auto sphereA = std::dynamic_pointer_cast<Sphere>(objA->getCollidingGeometry());
+        auto sphereB = std::dynamic_pointer_cast<Sphere>(objB->getCollidingGeometry());
+
+        // Geometries check
+        if (sphereA == nullptr || sphereB == nullptr)
         {
             LOG(WARNING) << "CollisionDetection::make_collision_detection error: "
                          << "invalid object geometries for SphereToSphere collision detection.";
             return nullptr;
         }
-        return std::make_shared<SphereToSphereCD>();
+        return std::make_shared<SphereToSphereCD>(sphereA, sphereB, CDA, CDB);
     }break;
     case Type::MeshToMesh:
     {
-        if (objA->getCollidingGeometry()->getType() != Geometry::Type::SurfaceMesh ||
-            objB->getCollidingGeometry()->getType() != Geometry::Type::SurfaceMesh)
+        auto meshA = std::dynamic_pointer_cast<SurfaceMesh>(objA->getCollidingGeometry());
+        auto meshB = std::dynamic_pointer_cast<SurfaceMesh>(objB->getCollidingGeometry());
+
+        // Geometries check
+        if (meshA == nullptr || meshB == nullptr)
         {
             LOG(WARNING) << "CollisionDetection::make_collision_detection error: "
                          << "invalid object geometries for MeshToMesh collision detection.";
             return nullptr;
         }
-        return std::make_shared<MeshToMeshCD>();
+        return std::make_shared<MeshToMeshCD>(meshA, meshB, CDA, CDB);
     }break;
     default:
     {
@@ -78,7 +91,6 @@ CollisionDetection::make_collision_detection(const Type& type,
         return nullptr;
     }
     }
-
 }
 
 const CollisionDetection::Type&

Base/Collision/CollisionDetection/imstkCollisionDetection.h

@@ -43,15 +43,20 @@ public:
     ///
     /// \brief Static factory for collision detection sub classes
     ///
-    static std::shared_ptr<CollisionDetection> make_collision_detection(
-            const Type& type,
+    static std::shared_ptr<CollisionDetection> make_collision_detection(const Type& type,
             std::shared_ptr<CollidingObject> objA,
-            std::shared_ptr<CollidingObject> objB);
+            std::shared_ptr<CollidingObject> objB,
+            CollisionData& CDA,
+            CollisionData& CDB);
 
     ///
     /// \brief Constructor
     ///
-    CollisionDetection(const Type& type) : m_type(type) {}
+    CollisionDetection(const Type& type, CollisionData& CDA, CollisionData& CDB) :
+        m_type(type),
+        m_CDA(CDA),
+        m_CDB(CDB)
+    {}
 
     ///
     /// \brief Destructor
@@ -61,10 +66,7 @@ public:
     ///
     /// \brief Detect collision and compute collision data (pure virtual)
     ///
-    virtual void computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                                      std::shared_ptr<CollidingObject> objB,
-                                      CollisionData& colDataA,
-                                      CollisionData& colDataB) = 0;
+    virtual void computeCollisionData() = 0;
 
     ///
     /// \brief Returns collision detection type
@@ -74,6 +76,8 @@ public:
 protected:
 
     Type m_type; //!< Collision detection algorithm type
+    CollisionData& m_CDA;
+    CollisionData& m_CDB;
 
 };
 }

Base/Collision/CollisionDetection/imstkMeshToMeshCD.cpp

@@ -21,7 +21,6 @@
 
 #include "imstkMeshToMeshCD.h"
 
-#include "imstkCollidingObject.h"
 #include "imstkCollisionData.h"
 #include "imstkSurfaceMesh.h"
 
@@ -41,66 +40,63 @@ EECallback(unsigned int e1_v1, unsigned int e1_v2,
 }
 
 void
-VFCallback(unsigned int vid, unsigned int fid,
-           float t, void *userdata)
+VFCallback1(unsigned int fid1, unsigned int vid2,
+            float t, void *userdata)
+{
+    auto CD = reinterpret_cast<MeshToMeshCD*>(userdata);
+    CD->getType();
+    LOG(INFO) <<"VF: v2("<<vid2<<"), f1("<<fid1<<") \t\t@ t="<<t;
+}
+
+void
+VFCallback2(unsigned int fid2, unsigned int vid1,
+            float t, void *userdata)
 {
     auto CD = reinterpret_cast<MeshToMeshCD*>(userdata);
     CD->getType();
-    LOG(INFO) <<"VF: v("<<vid<<"), f("<<fid<<") \t\t@ t="<<t;
+    LOG(INFO) <<"VF: v1("<<vid1<<"), f2("<<fid2<<") \t\t@ t="<<t;
+}
+
+MeshToMeshCD::MeshToMeshCD(std::shared_ptr<SurfaceMesh> meshA,
+                           std::shared_ptr<SurfaceMesh> meshB,
+                           CollisionData& CDA,
+                           CollisionData& CDB) :
+    CollisionDetection(CollisionDetection::Type::PlaneToSphere, CDA, CDB),
+    m_meshA(meshA),
+    m_meshB(meshB)
+{
+    m_modelA = std::make_shared<DeformModel>(meshA->getVerticesPositions(), meshA->getTrianglesVertices());
+    m_modelB = std::make_shared<DeformModel>(meshB->getVerticesPositions(), meshB->getTrianglesVertices());
+
+    // Setup Callbacks
+    m_modelA->SetEECallBack(EECallback, this);
+    m_modelA->SetVFCallBack(VFCallback1, this);
+    m_modelB->SetVFCallBack(VFCallback2, this);
+
+    // Build BVH
+    m_modelA->BuildBVH(false);
+    m_modelB->BuildBVH(false);
 }
 
 void
-MeshToMeshCD::computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                                   std::shared_ptr<CollidingObject> objB,
-                                   CollisionData& colDataA,
-                                   CollisionData& colDataB)
+MeshToMeshCD::computeCollisionData()
 {
-    auto geomA = std::dynamic_pointer_cast<SurfaceMesh>(objA->getCollidingGeometry());
-    auto geomB = std::dynamic_pointer_cast<SurfaceMesh>(objB->getCollidingGeometry());
-
-    // Geometries check
-    if (geomA == nullptr || geomB == nullptr)
-    {
-        LOG(WARNING) << "MeshToMeshCD::computeCollisionData error: invalid geometries.";
-        return;
-    }
-
-    // Init models for continuous CD
-    if(!m_initialized)
-    {
-        // Init
-        modelA = std::make_shared<DeformModel>(geomA->getVerticesPositions(), geomA->getTrianglesVertices());
-        modelB = std::make_shared<DeformModel>(geomB->getVerticesPositions(), geomB->getTrianglesVertices());
-
-        // Setup Callbacks
-        modelA->SetEECallBack(EECallback, this);
-        modelA->SetVFCallBack(VFCallback, this);
-
-        // Build BVH
-        modelA->BuildBVH(false);
-        modelB->BuildBVH(false);
-
-        m_initialized = true;
-    }
-    else
-    {
-        // Update model
-        modelA->UpdateVert(geomA->getVerticesPositions());
-        modelB->UpdateVert(geomB->getVerticesPositions());
-        modelB->UpdateBoxes();
-        modelB->UpdateBoxes();
-
-        // Update BVH
-        modelA->RefitBVH();
-        modelB->RefitBVH();
-
-        // Reset Results
-        modelA->ResetCounter();
-        modelB->ResetCounter();
-
-        // Collide
-        modelA->Collide(modelB.get());
-    }
+    // Update model
+    m_modelA->UpdateVert(m_meshA->getVerticesPositions());
+    m_modelB->UpdateVert(m_meshB->getVerticesPositions());
+    m_modelB->UpdateBoxes();
+    m_modelB->UpdateBoxes();
+
+    // Update BVH
+    m_modelA->RefitBVH();
+    m_modelB->RefitBVH();
+
+    // Reset Results
+    m_modelA->ResetCounter();
+    m_modelB->ResetCounter();
+
+    // Collide
+    m_modelA->Collide(m_modelB.get());
 }
 
 }

Base/Collision/CollisionDetection/imstkMeshToMeshCD.h

@@ -30,7 +30,7 @@
 
 namespace imstk {
 
-class CollidingObject;
+class SurfaceMesh;
 class CollisionData;
 
 class MeshToMeshCD : public CollisionDetection
@@ -40,7 +40,10 @@ public:
     ///
     /// \brief Constructor
     ///
-    MeshToMeshCD() : CollisionDetection(CollisionDetection::Type::MeshToMesh) {}
+    MeshToMeshCD(std::shared_ptr<SurfaceMesh> planeA,
+                 std::shared_ptr<SurfaceMesh> sphereB,
+                 CollisionData& CDA,
+                 CollisionData& CDB);
 
     ///
     /// \brief Destructor
@@ -50,16 +53,15 @@ public:
     ///
     /// \brief Detect collision and compute collision data
     ///
-    void computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                              std::shared_ptr<CollidingObject> objB,
-                              CollisionData& colDataA,
-                              CollisionData& colDataB) override;
+    void computeCollisionData() override;
 
 private:
 
     bool m_initialized = false;
-    std::shared_ptr<DeformModel> modelA;
-    std::shared_ptr<DeformModel> modelB;
+    std::shared_ptr<SurfaceMesh> m_meshA;
+    std::shared_ptr<SurfaceMesh> m_meshB;
+    std::shared_ptr<DeformModel> m_modelA;
+    std::shared_ptr<DeformModel> m_modelB;
 };
 }
 

Base/Collision/CollisionDetection/imstkPlaneToSphereCD.cpp

@@ -31,30 +31,17 @@
 namespace imstk {
 
 void
-PlaneToSphereCD::computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                                      std::shared_ptr<CollidingObject> objB,
-                                      CollisionData& colDataA,
-                                      CollisionData& colDataB)
+PlaneToSphereCD::computeCollisionData()
 {
-    auto planeGeom = std::dynamic_pointer_cast<Plane>(objA->getCollidingGeometry());
-    auto sphereGeom = std::dynamic_pointer_cast<Sphere>(objB->getCollidingGeometry());
-
-    // Geometries check
-    if (planeGeom == nullptr || sphereGeom == nullptr)
-    {
-        LOG(WARNING) << "PlaneToSphereCD::computeCollisionData error: invalid geometries.";
-        return;
-    }
-
     // Clear collisionData
-    colDataA.clearAll();
-    colDataB.clearAll();
+    m_CDA.clearAll();
+    m_CDB.clearAll();
 
     // Get geometry properties
-    Vec3d sP = sphereGeom->getPosition();
-    double r = sphereGeom->getRadius() * sphereGeom->getScaling();
-    Vec3d pP = planeGeom->getPosition();
-    Vec3d n = planeGeom->getNormal();
+    Vec3d sP = m_sphereB->getPosition();
+    double r = m_sphereB->getRadius() * m_sphereB->getScaling();
+    Vec3d pP = m_planeA->getPosition();
+    Vec3d n = m_planeA->getNormal();
 
     // Compute shortest distance
     double d = (sP-pP).dot(n);
@@ -79,8 +66,8 @@ PlaneToSphereCD::computeCollisionData(std::shared_ptr<CollidingObject> objA,
     Vec3d sC = sP + dirBToA*r;
 
     // Set collisionData
-    colDataA.PDColData.push_back({pC, dirBToA, penetrationDepth});
-    colDataB.PDColData.push_back({sC, -dirBToA, penetrationDepth});
+    m_CDA.PDColData.push_back({pC, dirBToA, penetrationDepth});
+    m_CDB.PDColData.push_back({sC, -dirBToA, penetrationDepth});
 }
 
 }

Base/Collision/CollisionDetection/imstkPlaneToSphereCD.h

@@ -28,7 +28,8 @@
 
 namespace imstk {
 
-class CollidingObject;
+class Plane;
+class Sphere;
 class CollisionData;
 
 class PlaneToSphereCD : public CollisionDetection
@@ -38,7 +39,14 @@ public:
     ///
     /// \brief Constructor
     ///
-    PlaneToSphereCD() : CollisionDetection(CollisionDetection::Type::PlaneToSphere) {}
+    PlaneToSphereCD(std::shared_ptr<Plane> planeA,
+                    std::shared_ptr<Sphere> sphereB,
+                    CollisionData& CDA,
+                    CollisionData& CDB) :
+        CollisionDetection(CollisionDetection::Type::PlaneToSphere, CDA, CDB),
+        m_planeA(planeA),
+        m_sphereB(sphereB)
+    {}
 
     ///
     /// \brief Destructor
@@ -48,10 +56,12 @@ public:
     ///
     /// \brief Detect collision and compute collision data
     ///
-    void computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                              std::shared_ptr<CollidingObject> objB,
-                              CollisionData& colDataA,
-                              CollisionData& colDataB) override;
+    void computeCollisionData() override;
+
+private:
+
+    std::shared_ptr<Plane> m_planeA;
+    std::shared_ptr<Sphere> m_sphereB;
 
 };
 }

Base/Collision/CollisionDetection/imstkSphereToSphereCD.cpp

@@ -30,30 +30,17 @@
 namespace imstk {
 
 void
-SphereToSphereCD::computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                                       std::shared_ptr<CollidingObject> objB,
-                                       CollisionData& colDataA,
-                                       CollisionData& colDataB)
+SphereToSphereCD::computeCollisionData()
 {
-    auto sphereGeomA = std::dynamic_pointer_cast<Sphere>(objA->getCollidingGeometry());
-    auto sphereGeomB = std::dynamic_pointer_cast<Sphere>(objB->getCollidingGeometry());
-
-    // Geometries check
-    if (sphereGeomA == nullptr || sphereGeomB == nullptr)
-    {
-        LOG(WARNING) << "SphereToSphereCD::computeCollisionData error: invalid geometries.";
-        return;
-    }
-
     // Clear collisionData
-    colDataA.clearAll();
-    colDataB.clearAll();
+    m_CDA.clearAll();
+    m_CDB.clearAll();
 
     // Get geometry properties
-    Vec3d sAP = sphereGeomA->getPosition();
-    double rA = sphereGeomA->getRadius() * sphereGeomA->getScaling();
-    Vec3d sBP = sphereGeomB->getPosition();
-    double rB = sphereGeomB->getRadius() * sphereGeomB->getScaling();
+    Vec3d sAP = m_sphereA->getPosition();
+    double rA = m_sphereA->getRadius() * m_sphereA->getScaling();
+    Vec3d sBP = m_sphereB->getPosition();
+    double rB = m_sphereB->getRadius() * m_sphereB->getScaling();
 
     // Compute direction vector
     Vec3d dirBToA = sAP - sBP;
@@ -74,8 +61,8 @@ SphereToSphereCD::computeCollisionData(std::shared_ptr<CollidingObject> objA,
     Vec3d sBC = sBP + dirBToA*rB;
 
     // Set collisionData
-    colDataA.PDColData.push_back({sAC, dirBToA, penetrationDepth});
-    colDataB.PDColData.push_back({sBC, -dirBToA, penetrationDepth});
+    m_CDA.PDColData.push_back({sAC, dirBToA, penetrationDepth});
+    m_CDB.PDColData.push_back({sBC, -dirBToA, penetrationDepth});
 }
 
 }

Base/Collision/CollisionDetection/imstkSphereToSphereCD.h

@@ -28,7 +28,7 @@
 
 namespace imstk {
 
-class CollidingObject;
+class Sphere;
 class CollisionData;
 
 class SphereToSphereCD : public CollisionDetection
@@ -38,7 +38,14 @@ public:
     ///
     /// \brief Constructor
     ///
-    SphereToSphereCD() : CollisionDetection(CollisionDetection::Type::SphereToSphere) {}
+    SphereToSphereCD(std::shared_ptr<Sphere> sphereA,
+                     std::shared_ptr<Sphere> sphereB,
+                     CollisionData& CDA,
+                     CollisionData& CDB) :
+         CollisionDetection(CollisionDetection::Type::SphereToSphere, CDA, CDB),
+         m_sphereA(sphereA),
+         m_sphereB(sphereB)
+     {}
 
     ///
     /// \brief Destructor
@@ -48,10 +55,12 @@ public:
     ///
     /// \brief Detect collision and compute collision data
     ///
-    void computeCollisionData(std::shared_ptr<CollidingObject> objA,
-                              std::shared_ptr<CollidingObject> objB,
-                              CollisionData& colDataA,
-                              CollisionData& colDataB) override;
+    void computeCollisionData() override;
+
+private:
+
+    std::shared_ptr<Sphere> m_sphereA;
+    std::shared_ptr<Sphere> m_sphereB;
 
 };
 }

Base/Collision/CollisionHandling/imstkCollisionHandling.cpp

@@ -29,24 +29,22 @@ namespace imstk {
 
 std::shared_ptr<CollisionHandling>
 CollisionHandling::make_collision_handling(const Type& type,
-                                           std::shared_ptr<CollidingObject> obj)
+                                           std::shared_ptr<CollidingObject> objA,
+                                           CollisionData &CDA,
+                                           std::shared_ptr<CollidingObject> objB)
 {
     switch (type)
     {
     case Type::Penalty:
     {
-        if (obj->getType() == SceneObject::Type::VirtualCoupling ||
-            obj->getType() == SceneObject::Type::Rigid)
-        {
-            return std::make_shared<PenaltyRigidCH>();
-        }
-        else
+        if (objA->getType() != SceneObject::Type::VirtualCoupling &&
+            objA->getType() == SceneObject::Type::Rigid)
         {
             LOG(WARNING) << "CollisionHandling::make_collision_handling error: "
                          << "penalty collision handling not yet implemented for non-rigid objects.";
             return nullptr;
         }
-
+        return std::make_shared<PenaltyRigidCH>(objA, CDA);
     }break;
 
     default:

Base/Collision/CollisionHandling/imstkCollisionHandling.h

@@ -46,7 +46,9 @@ public:
     ///
     static std::shared_ptr<CollisionHandling> make_collision_handling(
             const Type& type,
-            std::shared_ptr<CollidingObject> obj);
+            std::shared_ptr<CollidingObject> objA,
+            CollisionData& CDA,
+            std::shared_ptr<CollidingObject> objB = nullptr);
 
     ///
     /// \brief Constructor
@@ -61,8 +63,7 @@ public:
     ///
     /// \brief Compute forces based on collision data (pure virtual)
     ///
-    virtual void computeContactForces(std::shared_ptr<CollidingObject> obj,
-                                      CollisionData& colData) = 0;
+    virtual void computeContactForces() = 0;
 
     ///
     /// \brief Returns collision handling type

Base/Collision/CollisionHandling/imstkPenaltyRigidCH.cpp

@@ -21,21 +21,22 @@
 
 #include "imstkPenaltyRigidCH.h"
 
+#include "imstkCollidingObject.h"
 #include "imstkVirtualCouplingObject.h"
+#include "imstkCollisionData.h"
 
 #include <g3log/g3log.hpp>
 
 namespace imstk {
 
 void
-PenaltyRigidCH::computeContactForces(std::shared_ptr<CollidingObject> obj,
-                                     CollisionData& colData)
+PenaltyRigidCH::computeContactForces()
 {
-    auto movableObj = std::dynamic_pointer_cast<VirtualCouplingObject>(obj);
+    auto movableObj = std::dynamic_pointer_cast<VirtualCouplingObject>(m_obj);
     if(movableObj == nullptr)
     {
         LOG(WARNING) << "PenaltyRigidCH::computeContactForces error: "
-                     << obj->getName() << " is not a virtualcoupling object. "
+                     << m_obj->getName() << " is not a virtualcoupling object. "
                      << "(Rigid not yet supported, coming soon)";
         return;
     }
@@ -44,11 +45,11 @@ PenaltyRigidCH::computeContactForces(std::shared_ptr<CollidingObject> obj,
     Vec3d force = movableObj->getForce();
 
     // If collision data, append forces
-    if(!colData.PDColData.empty())
+    if(!m_colData.PDColData.empty())
     {
-        for(const auto& cd : colData.PDColData)
+        for(const auto& cd : m_colData.PDColData)
         {
-            force += cd.direction * ((cd.penetrationDepth+1)*(cd.penetrationDepth+1)-1)*5;
+            force += cd.direction * ((cd.penetrationDepth+1)*(cd.penetrationDepth+1)-1)*10;
         }
     }
 

Base/Collision/CollisionHandling/imstkPenaltyRigidCH.h

@@ -22,14 +22,15 @@
 #ifndef imstkPenaltyRigidCH_h
 #define imstkPenaltyRigidCH_h
 
-#include <memory>
-
 #include "imstkCollisionHandling.h"
-#include "imstkCollidingObject.h"
-#include "imstkCollisionData.h"
+
+#include <memory>
 
 namespace imstk {
 
+class CollidingObject;
+class CollisionData;
+
 class PenaltyRigidCH : public CollisionHandling
 {
 public:
@@ -37,7 +38,12 @@ public:
     ///
     /// \brief Constructor
     ///
-    PenaltyRigidCH() : CollisionHandling(CollisionHandling::Type::Penalty) {}
+    PenaltyRigidCH(std::shared_ptr<CollidingObject> obj,
+                   CollisionData& colData) :
+        CollisionHandling(CollisionHandling::Type::Penalty),
+        m_obj(obj),
+        m_colData(colData)
+    {}
 
     ///
     /// \brief Destructor
@@ -47,8 +53,12 @@ public:
     ///
     /// \brief Compute forces based on collision data (pure virtual)
     ///
-    virtual void computeContactForces(std::shared_ptr<CollidingObject> obj,
-                                      CollisionData& colData);
+    void computeContactForces() override;
+
+private:
+
+    std::shared_ptr<CollidingObject> m_obj;
+    CollisionData& m_colData;
 
 };
 }

Base/Collision/imstkInteractionPair.cpp

@@ -52,11 +52,14 @@ InteractionPair::InteractionPair(std::shared_ptr<CollidingObject> A,
         B->getType() == SceneObject::Type::Static)
     {
        LOG(WARNING) << "InteractionPair error: can not create interaction between two static objects.";
-       return;
+       //return;
     }
 
     // Collision Detection
-    std::shared_ptr<CollisionDetection> CD = CollisionDetection::make_collision_detection(CDType, A, B);
+    m_colDataMap[A] = CollisionData();
+    m_colDataMap[B] = CollisionData();
+    std::shared_ptr<CollisionDetection> CD = CollisionDetection::make_collision_detection(CDType, A, B,
+                                                                                          m_colDataMap[A], m_colDataMap[B]);
     if (CD == nullptr)
     {
         LOG(WARNING) << "InteractionPair error: can not instantiate collision detection algorithm.";
@@ -67,7 +70,7 @@ InteractionPair::InteractionPair(std::shared_ptr<CollidingObject> A,
     std::shared_ptr<CollisionHandling> CHA;
     if (A->getType() != SceneObject::Type::Static)
     {
-       CHA = CollisionHandling::make_collision_handling(CHAType, A);
+       CHA = CollisionHandling::make_collision_handling(CHAType, A, m_colDataMap[A], B);
        if (CHA == nullptr)
        {
            LOG(WARNING) << "InteractionPair error: can not instantiate collision handling for '"
@@ -80,7 +83,7 @@ InteractionPair::InteractionPair(std::shared_ptr<CollidingObject> A,
     std::shared_ptr<CollisionHandling> CHB;
     if (B->getType() != SceneObject::Type::Static)
     {
-       CHB = CollisionHandling::make_collision_handling(CHBType, B);
+       CHB = CollisionHandling::make_collision_handling(CHBType, B, m_colDataMap[B], A);
        if (CHB == nullptr)
        {
            LOG(WARNING) << "InteractionPair error: can not instantiate collision handling for '"
@@ -94,10 +97,7 @@ InteractionPair::InteractionPair(std::shared_ptr<CollidingObject> A,
     m_colDetect = CD;
     m_colHandlingMap[A] = CHA;
     m_colHandlingMap[B] = CHB;
-    m_colDataMap[A] = CollisionData();
-    m_colDataMap[B] = CollisionData();
     m_valid = true;
-
 }
 
 void
@@ -109,10 +109,7 @@ InteractionPair::computeCollisionData()
         return;
     }
 
-    m_colDetect->computeCollisionData(m_objects.first,
-                                      m_objects.second,
-                                      m_colDataMap.at(m_objects.first),
-                                      m_colDataMap.at(m_objects.second));
+    m_colDetect->computeCollisionData();
 }
 
 void
@@ -136,7 +133,7 @@ InteractionPair::computeContactForces(std::shared_ptr<CollidingObject> obj)
         return;
     }
 
-    m_colHandlingMap.at(obj)->computeContactForces(obj, m_colDataMap.at(obj));
+    m_colHandlingMap.at(obj)->computeContactForces();
 }
 
 const bool&