protected override bool Interact(bool staticCollision) { if (RBElement1.GetElementType() != MyRBElementType.ET_SPHERE) { SwapElements(); } Matrix matrix0 = RBElement1.GetGlobalTransformation(); Matrix matrix1 = RBElement2.GetGlobalTransformation(); float sphereRadius = ((MyRBSphereElement)RBElement1).Radius; Vector3 body0Pos = matrix0.Translation; // sphere pos Vector3 body1Pos = matrix1.Translation; Matrix tempMat1 = matrix1; Matrix inverseMatrix1 = Matrix.Invert(tempMat1); MyModel model = ((RBElement1.Flags & MyElementFlag.EF_MODEL_PREFER_LOD0) > 0 ? ((MyRBTriangleMeshElement)RBElement2).ModelLOD0 : ((MyRBTriangleMeshElement)RBElement2).Model); if (staticCollision) { BoundingSphere bsphere = new BoundingSphere(body0Pos, sphereRadius); return(model.GetTrianglePruningStructure().GetIntersectionWithSphere(((MinerWars.AppCode.Game.Physics.MyPhysicsBody)RBElement2.GetRigidBody().m_UserData).Entity, ref bsphere)); } else { float dt = MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep; float epsilon = MyPhysics.physicsSystem.GetRigidBodyModule().CollisionEpsilon; MySmallCollPointInfo[] collPtArray = MyContactInfoCache.SCPIStackAlloc(); int numCollPts = 0; Vector3 collNormal = Vector3.Zero; int optimalIterationCount = (int)(GetRigidBody1().LinearVelocity.Length() * dt / (sphereRadius * 2)) + 1; //PZ: after consultation with petrM 1-4 iteration will be just ok int maxIndex = (int)MathHelper.Min(optimalIterationCount, MAX_AVAILABLE_ITERATION); //float speed = GetRigidBody1().LinearVelocity.Length(); Vector3 velocityAdd = GetRigidBody1().LinearVelocity *dt / (float)maxIndex; float velocityAddLength = velocityAdd.Length(); List <MyTriangle_Vertex_Normal> triangles = MyPhysics.physicsSystem.GetContactConstraintModule().GetTriangleCache().GetFreeTriangleList(this); //PZ: we will try to interpolate sphere position during this tick //we have to have at least one iteration for (int index = 0; index < maxIndex; index++) { //PZ: from starting point Vector3 interpolatedPosition = body0Pos + velocityAdd * index; // Deano : get the spheres centers in triangleVertexes mesh space Vector3 newSphereCen = Vector3.Transform(interpolatedPosition, inverseMatrix1); // Transform sphere from world space to object space BoundingSphere newSphereInObjectSpace = new BoundingSphere(newSphereCen, sphereRadius + velocityAddLength + epsilon); BoundingBox newAABBInObjectSpace = BoundingBox.CreateFromSphere(newSphereInObjectSpace); model.GetTrianglePruningStructure().GetTrianglesIntersectingAABB(ref newAABBInObjectSpace, triangles, triangles.Capacity); for (int i = 0; i < triangles.Count; i++) { MyTriangle_Vertex_Normal triangle = triangles[i]; // skip too narrow triangles causing instability /* This must be done in preprocessor! * if ((triangle.Vertexes.Vertex0 - triangle.Vertexes.Vertex1).LengthSquared() < MyPhysicsConfig.TriangleEpsilon) * { * continue; * } * * if ((triangle.Vertexes.Vertex1 - triangle.Vertexes.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon) * { * continue; * } * * if ((triangle.Vertexes.Vertex0 - triangle.Vertexes.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon) * { * continue; * } */ MyPlane plane = new MyPlane(ref triangle.Vertexes); Vector3?pt = MyUtils.GetSphereTriangleIntersection(ref newSphereInObjectSpace, ref plane, ref triangle.Vertexes); if (pt == null) { continue; } pt = Vector3.Transform(pt.Value, matrix1); Vector3 collisionN = -plane.Normal; collisionN = Vector3.TransformNormal(collisionN, matrix1); // skip triangle in case the normal is in wrong dir (narrow walls) Vector3 tempV = (interpolatedPosition - pt.Value); if (Vector3.Dot(collisionN, tempV) >= 0.8f * tempV.Length()) // equivalent to if (Vector3.Dot(collisionN, Vector3.Normalize(tempV)) > 0.8f) { continue; } float depth = Vector3.Distance(pt.Value, interpolatedPosition) - sphereRadius; if (numCollPts < MyPhysicsConfig.MaxContactPoints) { // since impulse get applied at the old position Vector3 p2 = pt.Value; // body0Pos - sphereRadius * 1.1f * collisionN; collPtArray[numCollPts++] = new MySmallCollPointInfo(p2 - interpolatedPosition, p2 - body1Pos, GetRigidBody1().LinearVelocity, GetRigidBody2().LinearVelocity, collisionN, depth, p2); /* * MyDebugDraw.AddDrawTriangle( * Vector3.Transform(triangle.Vertexes.Vertex0, matrix1), * Vector3.Transform(triangle.Vertexes.Vertex1, matrix1), * Vector3.Transform(triangle.Vertexes.Vertex2, matrix1), * Color.Red); */ } collNormal += collisionN; } if (numCollPts > 0) // break if we catch any triangles in this iteration { break; } } if (numCollPts > 0) { MyPhysics.physicsSystem.GetContactConstraintModule().AddContactConstraint(this, collPtArray, numCollPts); } MyPhysics.physicsSystem.GetContactConstraintModule().GetTriangleCache().PushBackTriangleList(triangles); MyContactInfoCache.FreeStackAlloc(collPtArray); } return(false); }
protected override bool Interact(bool staticCollision) { if (!staticCollision && GetRigidBody1().IsStatic() && GetRigidBody2().IsStatic()) { return(false); } MyRBBoxElement box = null; MyRBSphereElement sphere = null; if (RBElement1.GetElementType() == MyRBElementType.ET_BOX) { SwapElements(); } box = (MyRBBoxElement)RBElement2; sphere = (MyRBSphereElement)RBElement1; Matrix boxMatrix = box.GetGlobalTransformation(); Vector3 sphereCenter = sphere.GetGlobalTransformation().Translation; Matrix invBoxMatrix = Matrix.Invert(boxMatrix); Vector3 boxLocalsphereCenter = Vector3.Transform(sphereCenter, invBoxMatrix); bool penetration = false; Vector3 normal = new Vector3(); Vector3 closestPos = new Vector3(); uint customData = 0; box.GetClosestPoint(boxLocalsphereCenter, ref closestPos, ref normal, ref penetration, ref customData); closestPos = Vector3.Transform(closestPos, boxMatrix); normal = -Vector3.TransformNormal(normal, boxMatrix); normal = MyMwcUtils.Normalize(normal); float vLength = (sphereCenter - closestPos).Length(); if (staticCollision) { return(vLength > 0 && vLength < sphere.Radius); } else { float eps = MyPhysics.physicsSystem.GetRigidBodyModule().CollisionEpsilon; float dt = MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep; Vector3 pointVelocity1 = new Vector3(); Vector3 pointVelocity2 = new Vector3(); GetRigidBody1().GetGlobalPointVelocity(ref closestPos, out pointVelocity1); GetRigidBody2().GetGlobalPointVelocity(ref closestPos, out pointVelocity2); float dynEps = 0; if (vLength >= eps) { float dot = Vector3.Dot(pointVelocity1 - pointVelocity2, normal) * dt; if (dot >= 0) { dynEps = dot; } } float radius = sphere.Radius; //Second part of condition commented due to 5968: Bug B - rocket passing through prefab //Does not seem to have any reason to be there if (vLength > 0 /*&& vLength < (radius + eps + dynEps)*/) { float error = vLength - (radius + 0.5f * eps); //error = System.Math.Min(error, eps); MySmallCollPointInfo[] collInfo = MyContactInfoCache.SCPIStackAlloc(); collInfo[0] = new MySmallCollPointInfo(closestPos - sphereCenter, closestPos - boxMatrix.Translation, GetRigidBody1().LinearVelocity, GetRigidBody2().LinearVelocity, normal, error, closestPos); MyPhysics.physicsSystem.GetContactConstraintModule().AddContactConstraint(this, collInfo, 1); MyContactInfoCache.FreeStackAlloc(collInfo); } } return(false); }
protected override bool Interact(bool staticCollision) { if (RBElement1.GetElementType() != MyRBElementType.ET_BOX) { SwapElements(); } if (!staticCollision) { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("BoxVoxelInteraction"); } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("Transformations"); MyRBBoxElement rbbox0 = (MyRBBoxElement)RBElement1; Matrix matrix0 = RBElement1.GetGlobalTransformation(); MyBox box = tempBox; box.Transform.Orientation = matrix0; box.Transform.Orientation.Translation = Vector3.Zero; box.Transform.Position = matrix0.Translation - Vector3.TransformNormal(rbbox0.Size * 0.5f, matrix0); box.SideLengths = rbbox0.Size; float boxRadius = box.GetBoundingRadiusAroundCentre(); #region boxCentre Vector3 boxCentre; box.GetCentre(out boxCentre); // Deano need to trasnform the box center into mesh space //Matrix invTransformMatrix = mesh.InverseTransformMatrix; //Vector3.Transform(ref boxCentre, ref invTransformMatrix, out boxCentre); #endregion BoundingBox bb = RBElement1.GetWorldSpaceAABB(); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("GetPotentialTrianglesForColDet"); // extent bb for the movement int numTriangles; MyVoxelMaps.GetPotentialTrianglesForColDet(out numTriangles, ref bb); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); if (staticCollision) { for (int iTriangle = 0; iTriangle < numTriangles; ++iTriangle) { MyColDetVoxelTriangle triangle = MyVoxelMaps.PotentialColDetTriangles[iTriangle]; // quick early test is done in mesh space float dist = triangle.Plane.DotCoordinate(boxCentre); if (dist > boxRadius) { continue; } // skip too narrow triangles causing destability if ((triangle.Vertex0 - triangle.Vertex1).LengthSquared() < MyPhysicsConfig.TriangleEpsilon || (triangle.Vertex1 - triangle.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon || (triangle.Vertex0 - triangle.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon ) { continue; } if (DoOverlapBoxTriangleStaticTest(box, ref triangle)) { return(true); } } } else { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("for DoOverlapBoxTriangleTest"); for (int iTriangle = 0; iTriangle < numTriangles; ++iTriangle) { MyColDetVoxelTriangle triangle = MyVoxelMaps.PotentialColDetTriangles[iTriangle]; // skip too narrow triangles causing destability if ((triangle.Vertex0 - triangle.Vertex1).LengthSquared() < MyPhysicsConfig.TriangleEpsilon || (triangle.Vertex1 - triangle.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon || (triangle.Vertex0 - triangle.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon ) { continue; } DoOverlapBoxTriangleTest(box, ref triangle); } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } if (!staticCollision) { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } return(false); }
protected override bool Interact(bool staticCollision) { if (staticCollision) { //MyCommonDebugUtils.AssertDebug(false, "Sphere-voxel static interaction called! And that's wrong."); } else { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("SphereVoxelInteraction"); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("Transformations"); if (RBElement1.GetElementType() != MyRBElementType.ET_SPHERE) { SwapElements(); } Matrix matrix0 = RBElement1.GetGlobalTransformation(); Matrix matrix1 = RBElement2.GetGlobalTransformation(); float sphereRadius = ((MyRBSphereElement)RBElement1).Radius; Vector3 body0Pos = matrix0.Translation; // sphere pos Vector3 body1Pos = matrix1.Translation; float dt = MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep; float epsylon = MyPhysics.physicsSystem.GetRigidBodyModule().CollisionEpsilon; Vector3 newBody0Pos = matrix0.Translation + GetRigidBody1().LinearVelocity *dt; float sphereTolR = epsylon + sphereRadius; float sphereTolR2 = sphereTolR * sphereTolR; MySmallCollPointInfo[] collPtArray = MyContactInfoCache.SCPIStackAlloc(); int numCollPts = 0; Vector3 collNormal = Vector3.Zero; //var colDetThroughVoxels = MyConstants.SPHERE_VOXELMAP_COLDET_THROUGH_VOXELS; var colDetThroughVoxels = !GetRigidBody1().ReadFlag(RigidBodyFlag.RBF_COLDET_THROUGH_VOXEL_TRIANGLES); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); if (colDetThroughVoxels) { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("colDetThroughVoxels"); BoundingSphere newSphere; newSphere.Center = newBody0Pos; newSphere.Radius = sphereRadius; MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("PoolList.Get"); using (var voxelMapsFounded = PoolList <MyVoxelMap> .Get()) { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartNextBlock("GetListOfVoxelMapsWhoseBoundingSphereIntersectsSphere"); MyVoxelMaps.GetListOfVoxelMapsWhoseBoundingSphereIntersectsSphere(ref newSphere, voxelMapsFounded, null); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartNextBlock("foreach (MyVoxelMap voxelMap in voxelMapsFounded)"); foreach (MyVoxelMap voxelMap in voxelMapsFounded) { if (voxelMap != null) { // We will iterate only voxels contained in the bounding box of new sphere, so here we get min/max corned in voxel units MyMwcVector3Int minCorner = voxelMap.GetVoxelCoordinateFromMeters(new Vector3( newSphere.Center.X - newSphere.Radius, newSphere.Center.Y - newSphere.Radius, newSphere.Center.Z - newSphere.Radius)); MyMwcVector3Int maxCorner = voxelMap.GetVoxelCoordinateFromMeters(new Vector3( newSphere.Center.X + newSphere.Radius, newSphere.Center.Y + newSphere.Radius, newSphere.Center.Z + newSphere.Radius)); voxelMap.FixVoxelCoord(ref minCorner); voxelMap.FixVoxelCoord(ref maxCorner); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("for loop"); MyMwcVector3Int tempVoxelCoord; for (tempVoxelCoord.X = minCorner.X; tempVoxelCoord.X <= maxCorner.X; tempVoxelCoord.X++) { for (tempVoxelCoord.Y = minCorner.Y; tempVoxelCoord.Y <= maxCorner.Y; tempVoxelCoord.Y++) { for (tempVoxelCoord.Z = minCorner.Z; tempVoxelCoord.Z <= maxCorner.Z; tempVoxelCoord.Z++) { byte voxelContent = voxelMap.GetVoxelContent(ref tempVoxelCoord); // Ignore voxels bellow the ISO value (empty, partialy empty...) if (voxelContent < MyVoxelConstants.VOXEL_ISO_LEVEL) { continue; } Vector3 voxelPosition = voxelMap.GetVoxelCenterPositionAbsolute(ref tempVoxelCoord); //float voxelSize = MyVoxelMaps.GetVoxelContentAsFloat(voxelContent) * MyVoxelConstants.VOXEL_SIZE_IN_METRES_HALF; float voxelSize = MyVoxelMaps.GetVoxelContentAsFloat(voxelContent) * MyVoxelConstants.VOXEL_RADIUS; // If distance to voxel border is less than sphere radius, we have a collision // So now we calculate normal vector and penetration depth but on OLD sphere float newDistanceToVoxel = Vector3.Distance(voxelPosition, newSphere.Center) - voxelSize; if (newDistanceToVoxel < (epsylon + newSphere.Radius)) { Vector3 collisionN = MyMwcUtils.Normalize(voxelPosition - body0Pos); if (numCollPts < MyPhysicsConfig.MaxContactPoints) { // Calculate penetration depth, but from old sphere (not new) float oldDistanceToVoxel = Vector3.Distance(voxelPosition, newSphere.Center) - voxelSize; float oldPenetrationDepth = oldDistanceToVoxel - sphereRadius; // Vector3 pt = body0Pos + sphereRadius * collisionN; Vector3 pt = voxelPosition - collisionN * (voxelSize - epsylon); collPtArray[numCollPts++] = new MySmallCollPointInfo(pt - body0Pos, pt - body1Pos, GetRigidBody1().LinearVelocity, GetRigidBody2().LinearVelocity, collisionN, oldPenetrationDepth, pt); } collNormal -= collisionN; } } } } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } else //if (colDetThroughVoxels) { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("ColDet triangles"); int optimalIterationCount = (int)(GetRigidBody1().LinearVelocity.Length() * dt / sphereRadius); int maxIndex = (int)MathHelper.Min(MathHelper.Max(optimalIterationCount, 1), 16); for (int i = 0; i < maxIndex; i++) { float velocityAdd = GetRigidBody1().LinearVelocity.Length() * dt / (float)maxIndex; Vector3 interpolatedPosition = body0Pos + GetRigidBody1().LinearVelocity *dt *i / (float)maxIndex; BoundingSphere newSphere; newSphere.Center = interpolatedPosition; newSphere.Radius = sphereRadius; int numTriangles; BoundingBox bb = BoundingBox.CreateFromSphere(newSphere); MyVoxelMaps.GetPotentialTrianglesForColDet(out numTriangles, ref bb); for (int iTriangle = 0; iTriangle < numTriangles; ++iTriangle) { MyColDetVoxelTriangle meshTriangle = MyVoxelMaps.PotentialColDetTriangles[iTriangle]; // mesh.GetTriangle(potentialTriangles[iTriangle]); MyTriangle_Vertex_Normal triangle = new MyTriangle_Vertex_Normal(); triangle.Vertexes.Vertex0 = meshTriangle.Vertex0; triangle.Vertexes.Vertex1 = meshTriangle.Vertex1; triangle.Vertexes.Vertex2 = meshTriangle.Vertex2; // skip too narrow triangles causing instability if ((triangle.Vertexes.Vertex0 - triangle.Vertexes.Vertex1).LengthSquared() < MyPhysicsConfig.TriangleEpsilon) { continue; } if ((triangle.Vertexes.Vertex1 - triangle.Vertexes.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon) { continue; } if ((triangle.Vertexes.Vertex0 - triangle.Vertexes.Vertex2).LengthSquared() < MyPhysicsConfig.TriangleEpsilon) { continue; } MyPlane plane = new MyPlane(ref triangle.Vertexes); Vector3?pt = MyUtils.GetSphereTriangleIntersection(ref newSphere, ref plane, ref triangle.Vertexes); if (pt == null) { continue; } Vector3 collisionN = plane.Normal; // skip triangle in case the normal is in wrong dir (narrow walls) Vector3 tempV = (newBody0Pos - pt.Value); if (Vector3.Dot(collisionN, tempV) >= 0.8f * tempV.Length()) // equivalent to dot(collisionN, normalize(tempV)) > 0.8f, but works for zero vectors { continue; } float depth = Vector3.Distance(pt.Value, body0Pos) - sphereRadius; if (numCollPts < MyPhysicsConfig.MaxContactPoints) { // since impulse get applied at the old position Vector3 p2 = pt.Value; collPtArray[numCollPts++] = new MySmallCollPointInfo(p2 - body0Pos, p2 - body1Pos, GetRigidBody1().LinearVelocity, GetRigidBody2().LinearVelocity, collisionN, depth, p2); } collNormal += collisionN; } } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } if (numCollPts > 0) { MyPhysics.physicsSystem.GetContactConstraintModule().AddContactConstraint(this, collPtArray, numCollPts); } MyContactInfoCache.FreeStackAlloc(collPtArray); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } return(false); }
protected override bool Interact(bool staticCollision) { try { if (!staticCollision) { TestsCount++; MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("BoxTriangleIntersection"); } if (RBElement1.GetElementType() != MyRBElementType.ET_BOX) { SwapElements(); } var boxElement = (MyRBBoxElement)RBElement1; var triangleMeshElem = (MyRBTriangleMeshElement)RBElement2; MyModel model = ((boxElement.Flags & MyElementFlag.EF_MODEL_PREFER_LOD0) > 0 ? triangleMeshElem.ModelLOD0 : triangleMeshElem.Model); Matrix boxMatrix = boxElement.GetGlobalTransformation(); Matrix triangleMeshMatrix = triangleMeshElem.GetGlobalTransformation(); Matrix newMatrix = boxMatrix; if (!staticCollision) { // MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep newMatrix.Translation = newMatrix.Translation + boxElement.GetRigidBody().LinearVelocity *MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep; } MyBox oldBox = m_tempBox1; MyBox newBox = m_tempBox2; oldBox.Transform.Orientation = boxMatrix; oldBox.Transform.Orientation.Translation = Vector3.Zero; oldBox.Transform.Position = boxMatrix.Translation - Vector3.TransformNormal(boxElement.Size * 0.5f, boxMatrix); newBox.Transform.Orientation = newMatrix; newBox.Transform.Orientation.Translation = Vector3.Zero; newBox.Transform.Position = newMatrix.Translation - Vector3.TransformNormal(boxElement.Size * 0.5f, newMatrix); oldBox.SideLengths = boxElement.Size; newBox.SideLengths = boxElement.Size; float boxRadius = newBox.GetBoundingRadiusAroundCentre(); #region REFERENCE: Vector3 boxCentre = newBox.GetCentre(); Vector3 boxCentre; newBox.GetCentre(out boxCentre); // Deano need to trasnform the box center into mesh space Matrix invTransformMatrix = Matrix.Invert(triangleMeshMatrix); Vector3.Transform(ref boxCentre, ref invTransformMatrix, out boxCentre); #endregion BoundingBox bb = boxElement.GetWorldSpaceAABB(); if (staticCollision) { Vector3 bbMin = Vector3.Transform(bb.Min, invTransformMatrix); Vector3 bbMax = Vector3.Transform(bb.Max, invTransformMatrix); BoundingSphere bs = new BoundingSphere((bbMax + bbMin) / 2, Vector3.Distance(bbMin, bbMax)); List <MyTriangle_Vertex_Normal> triangles = MyPhysics.physicsSystem.GetContactConstraintModule().GetTriangleCache().GetFreeTriangleList(this); model.GetTrianglePruningStructure().GetTrianglesIntersectingSphere(ref bs, triangles, triangles.Capacity); for (int iTriangle = 0; iTriangle < triangles.Count; iTriangle++) { MyTriangle_Vertex_Normal triangle = triangles[iTriangle]; MyPlane plane = new MyPlane(ref triangle.Vertexes); // quick early test is done in mesh space float dist = MyUtils.GetDistanceFromPointToPlane(ref boxCentre, ref plane); if (dist > boxRadius || dist < -boxRadius) { continue; } Vector3 oldPos = boxMatrix.Translation; Vector3 newPos = newMatrix.Translation; float collisionEpsilon = 0;//pz to test not sure about value if (DoOverlapBoxTriangleStaticTest( oldBox, newBox, triangle, plane, collisionEpsilon, ref triangleMeshMatrix, ref oldPos, ref newPos)) { return(true); } } return(false); } else { bb.Min += boxElement.GetRigidBody().LinearVelocity *MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep; bb.Max += boxElement.GetRigidBody().LinearVelocity *MyPhysics.physicsSystem.GetRigidBodyModule().CurrentTimeStep; var boxCenter = bb.GetCenter(); // aabox is done in mesh space and handles the mesh transform correctly //int numTriangles = mesh.GetTrianglesIntersectingtAABox(potentialTriangles, MaxLocalStackTris, ref bb); //boxElement.GetRigidBody().Position = Vector3.Zero; //triangleMeshElem.GetRigidBody().Position = Vector3.Zero; //BoundingSphere bs = new BoundingSphere((bbMax + bbMin) / 2, Vector3.Distance(bbMin, bbMax)); var halfSize = bb.Size() / 2; BoundingBox bb2 = new BoundingBox(boxCentre - halfSize, boxCentre + halfSize); List <MyTriangle_Vertex_Normal> triangles = MyPhysics.physicsSystem.GetContactConstraintModule().GetTriangleCache().GetFreeTriangleList(this); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("PruningStructure"); model.GetTrianglePruningStructure().GetTrianglesIntersectingAABB(ref bb2, triangles, triangles.Capacity); //model.GetTrianglePruningStructure().GetTrianglesIntersectingSphere(ref bs, triangles, triangles.Capacity); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().ProfileCustomValue("Tests count ", TestsCount); MySmallCollPointInfo[] collPtArray = MyContactInfoCache.SCPIStackAlloc(); int refPointer = 0; m_collPoints.Clear(); MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().StartProfilingBlock("Triangles"); for (int iTriangle = 0; iTriangle < triangles.Count; iTriangle++) { MyTriangle_Vertex_Normal triangle = triangles[iTriangle]; //IndexedTriangle meshTriangle = mesh.GetTriangle(potentialTriangles[iTriangle]); MyPlane plane = new MyPlane(ref triangle.Vertexes); // quick early test is done in mesh space //float dist = meshTriangle.Plane.DotCoordinate(boxCentre); float dist = MyUtils.GetDistanceFromPointToPlane(ref boxCentre, ref plane); if (dist > boxRadius || dist < -boxRadius) { continue; } Vector3 oldPos = boxMatrix.Translation; Vector3 newPos = newMatrix.Translation; DoOverlapBoxTriangleTest( oldBox, newBox, triangle, plane, MyPhysics.physicsSystem.GetRigidBodyModule().CollisionEpsilon, ref triangleMeshMatrix, ref oldPos, ref newPos, m_collPoints); } MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); TrianglesTested += triangles.Count; MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().ProfileCustomValue("Triangles tested ", TrianglesTested); m_collPoints.Sort(m_colPointComparer); refPointer = 0; foreach (MyCollisionPointStruct collPoint in m_collPoints) { collPtArray[refPointer] = collPoint.CollPointInfo; refPointer++; if (refPointer >= MyPhysicsConfig.MaxContactPoints) { break; } } if (refPointer > 0) { MyPhysics.physicsSystem.GetContactConstraintModule().AddContactConstraint(this, collPtArray, refPointer); } MyContactInfoCache.FreeStackAlloc(collPtArray); MyPhysics.physicsSystem.GetContactConstraintModule().GetTriangleCache().PushBackTriangleList(triangles); } } catch { throw; } finally { if (!staticCollision) { MinerWars.AppCode.Game.Render.MyRender.GetRenderProfiler().EndProfilingBlock(); } } return(false); }