/// <summary> /// Draws the specified constraint. /// </summary> /// <param name="constraint">The constraint.</param> /// <param name="debugDraw">The debug draw.</param> public override void Draw(TypedConstraint constraint, IDebugDraw debugDraw) { var p6DOF = (Generic6DofConstraint)constraint; Matrix tr = p6DOF.GetCalculatedTransformA(); if (DrawFrames) { debugDraw.DrawTransform(ref tr, DrawSize); } tr = p6DOF.GetCalculatedTransformB(); if (DrawFrames) { debugDraw.DrawTransform(ref tr, DrawSize); } Vector3 zero = Vector3.Zero; if (DrawLimits) { tr = p6DOF.GetCalculatedTransformA(); Vector3 center = p6DOF.GetCalculatedTransformB().Translation; // up is axis 1 not 2 ? Vector3 up = MathUtil.MatrixColumn(ref tr, 1); Vector3 axis = MathUtil.MatrixColumn(ref tr, 0); float minTh = p6DOF.GetRotationalLimitMotor(1).m_loLimit; float maxTh = p6DOF.GetRotationalLimitMotor(1).m_hiLimit; float minPs = p6DOF.GetRotationalLimitMotor(2).m_loLimit; float maxPs = p6DOF.GetRotationalLimitMotor(2).m_hiLimit; debugDraw.DrawSpherePatch(ref center, ref up, ref axis, DrawSize * .9f, minTh, maxTh, minPs, maxPs, ref zero); axis = MathUtil.MatrixColumn(ref tr, 1); float ay = p6DOF.GetAngle(1); float az = p6DOF.GetAngle(2); var cy = (float)System.Math.Cos(ay); var sy = (float)System.Math.Sin(ay); var cz = (float)System.Math.Cos(az); var sz = (float)System.Math.Sin(az); var ref1 = new Vector3(); ref1.X = cy * cz * axis.X + cy * sz * axis.Y - sy * axis.Z; ref1.Y = -sz * axis.X + cz * axis.Y; ref1.Z = cz * sy * axis.X + sz * sy * axis.Y + cy * axis.Z; tr = p6DOF.GetCalculatedTransformB(); Vector3 normal = -MathUtil.MatrixColumn(ref tr, 0); float minFi = p6DOF.GetRotationalLimitMotor(0).m_loLimit; float maxFi = p6DOF.GetRotationalLimitMotor(0).m_hiLimit; if (minFi > maxFi) { debugDraw.DrawArc(ref center, ref normal, ref ref1, DrawSize, DrawSize, -MathUtil.SIMD_PI, MathUtil.SIMD_PI, ref zero, false); } else if (minFi < maxFi) { debugDraw.DrawArc(ref center, ref normal, ref ref1, DrawSize, DrawSize, minFi, maxFi, ref zero, false); } tr = p6DOF.GetCalculatedTransformA(); Vector3 bbMin = p6DOF.GetTranslationalLimitMotor().m_lowerLimit; Vector3 bbMax = p6DOF.GetTranslationalLimitMotor().m_upperLimit; debugDraw.DrawBox(ref bbMin, ref bbMax, ref tr, ref zero); } }
public static void DebugDrawConstraint(TypedConstraint constraint, IDebugDraw debugDraw) { bool drawFrames = (debugDraw.GetDebugMode() & DebugDrawModes.DBG_DrawConstraints) != 0; bool drawLimits = (debugDraw.GetDebugMode() & DebugDrawModes.DBG_DrawConstraintLimits) != 0; float dbgDrawSize = constraint.GetDbgDrawSize(); if (dbgDrawSize <= 0f) { return; } switch (constraint.GetConstraintType()) { case TypedConstraintType.POINT2POINT_CONSTRAINT_TYPE: { Point2PointConstraint p2pC = constraint as Point2PointConstraint; IndexedMatrix tr = IndexedMatrix.Identity; IndexedVector3 pivot = p2pC.GetPivotInA(); pivot = p2pC.GetRigidBodyA().GetCenterOfMassTransform()* pivot; tr._origin = pivot; debugDraw.DrawTransform(ref tr, dbgDrawSize); // that ideally should draw the same frame pivot = p2pC.GetPivotInB(); pivot = p2pC.GetRigidBodyB().GetCenterOfMassTransform() * pivot; tr._origin = pivot; if (drawFrames) debugDraw.DrawTransform(ref tr, dbgDrawSize); } break; case TypedConstraintType.HINGE_CONSTRAINT_TYPE: { HingeConstraint pHinge = constraint as HingeConstraint; IndexedMatrix tr = pHinge.GetRigidBodyA().GetCenterOfMassTransform() * pHinge.GetAFrame(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } tr = pHinge.GetRigidBodyB().GetCenterOfMassTransform() * pHinge.GetBFrame(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } float minAng = pHinge.GetLowerLimit(); float maxAng = pHinge.GetUpperLimit(); if (minAng == maxAng) { break; } bool drawSect = true; if (minAng > maxAng) { minAng = 0f; maxAng = MathUtil.SIMD_2_PI; drawSect = false; } if (drawLimits) { IndexedVector3 center = tr._origin; IndexedVector3 normal = tr._basis.GetColumn(2); IndexedVector3 axis = tr._basis.GetColumn(0); IndexedVector3 zero = IndexedVector3.Zero; debugDraw.DrawArc(ref center, ref normal, ref axis, dbgDrawSize, dbgDrawSize, minAng, maxAng, ref zero, drawSect); } } break; case TypedConstraintType.CONETWIST_CONSTRAINT_TYPE: { ConeTwistConstraint pCT = constraint as ConeTwistConstraint; IndexedMatrix tr = pCT.GetRigidBodyA().GetCenterOfMassTransform() * pCT.GetAFrame(); if (drawFrames) debugDraw.DrawTransform(ref tr, dbgDrawSize); tr = pCT.GetRigidBodyB().GetCenterOfMassTransform() * pCT.GetBFrame(); if (drawFrames) debugDraw.DrawTransform(ref tr, dbgDrawSize); IndexedVector3 zero = IndexedVector3.Zero; if (drawLimits) { //const float length = float(5); float length = dbgDrawSize; const int nSegments = 8 * 4; float fAngleInRadians = MathUtil.SIMD_2_PI * (float)(nSegments - 1) / (float)nSegments; IndexedVector3 pPrev = pCT.GetPointForAngle(fAngleInRadians, length); pPrev = tr * pPrev; for (int i = 0; i < nSegments; i++) { fAngleInRadians = MathUtil.SIMD_2_PI * (float)i / (float)nSegments; IndexedVector3 pCur = pCT.GetPointForAngle(fAngleInRadians, length); pCur = tr * pCur; debugDraw.DrawLine(ref pPrev, ref pCur, ref zero); if (i % (nSegments / 8) == 0) { IndexedVector3 origin = tr._origin; debugDraw.DrawLine(ref origin, ref pCur, ref zero); } pPrev = pCur; } float tws = pCT.GetTwistSpan(); float twa = pCT.GetTwistAngle(); bool useFrameB = (pCT.GetRigidBodyB().GetInvMass() > 0f); if (useFrameB) { tr = pCT.GetRigidBodyB().GetCenterOfMassTransform() * pCT.GetBFrame(); } else { tr = pCT.GetRigidBodyA().GetCenterOfMassTransform() * pCT.GetAFrame(); } IndexedVector3 pivot = tr._origin; IndexedVector3 normal = tr._basis.GetColumn(0); IndexedVector3 axis = tr._basis.GetColumn(1); debugDraw.DrawArc(ref pivot, ref normal, ref axis, dbgDrawSize, dbgDrawSize, -twa - tws, -twa + tws, ref zero, true); } } break; case TypedConstraintType.D6_CONSTRAINT_TYPE: case TypedConstraintType.D6_SPRING_CONSTRAINT_TYPE: { Generic6DofConstraint p6DOF = constraint as Generic6DofConstraint; IndexedMatrix tr = p6DOF.GetCalculatedTransformA(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } tr = p6DOF.GetCalculatedTransformB(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } IndexedVector3 zero = IndexedVector3.Zero; if (drawLimits) { tr = p6DOF.GetCalculatedTransformA(); IndexedVector3 center = p6DOF.GetCalculatedTransformB()._origin; // up is axis 1 not 2 ? IndexedVector3 up = tr._basis.GetColumn(1); IndexedVector3 axis = tr._basis.GetColumn(0); float minTh = p6DOF.GetRotationalLimitMotor(1).m_loLimit; float maxTh = p6DOF.GetRotationalLimitMotor(1).m_hiLimit; float minPs = p6DOF.GetRotationalLimitMotor(2).m_loLimit; float maxPs = p6DOF.GetRotationalLimitMotor(2).m_hiLimit; debugDraw.DrawSpherePatch(ref center, ref up, ref axis, dbgDrawSize * .9f, minTh, maxTh, minPs, maxPs, ref zero); axis = tr._basis.GetColumn(1); float ay = p6DOF.GetAngle(1); float az = p6DOF.GetAngle(2); float cy = (float)Math.Cos(ay); float sy = (float)Math.Sin(ay); float cz = (float)Math.Cos(az); float sz = (float)Math.Sin(az); IndexedVector3 ref1 = new IndexedVector3( cy * cz * axis.X + cy * sz * axis.Y - sy * axis.Z, -sz * axis.X + cz * axis.Y, cz * sy * axis.X + sz * sy * axis.Y + cy * axis.Z); tr = p6DOF.GetCalculatedTransformB(); IndexedVector3 normal = -tr._basis.GetColumn(0); float minFi = p6DOF.GetRotationalLimitMotor(0).m_loLimit; float maxFi = p6DOF.GetRotationalLimitMotor(0).m_hiLimit; if (minFi > maxFi) { debugDraw.DrawArc(ref center, ref normal, ref ref1, dbgDrawSize, dbgDrawSize, -MathUtil.SIMD_PI, MathUtil.SIMD_PI, ref zero, false); } else if (minFi < maxFi) { debugDraw.DrawArc(ref center, ref normal, ref ref1, dbgDrawSize, dbgDrawSize, minFi, maxFi, ref zero, false); } tr = p6DOF.GetCalculatedTransformA(); IndexedVector3 bbMin = p6DOF.GetTranslationalLimitMotor().m_lowerLimit; IndexedVector3 bbMax = p6DOF.GetTranslationalLimitMotor().m_upperLimit; debugDraw.DrawBox(ref bbMin, ref bbMax, ref tr, ref zero); } } break; case TypedConstraintType.SLIDER_CONSTRAINT_TYPE: { SliderConstraint pSlider = constraint as SliderConstraint; IndexedMatrix tr = pSlider.GetCalculatedTransformA(); if (drawFrames) debugDraw.DrawTransform(ref tr, dbgDrawSize); tr = pSlider.GetCalculatedTransformB(); if (drawFrames) debugDraw.DrawTransform(ref tr, dbgDrawSize); IndexedVector3 zero = IndexedVector3.Zero; if (drawLimits) { IndexedMatrix tr2 = pSlider.GetCalculatedTransformA(); IndexedVector3 li_min = tr2 * new IndexedVector3(pSlider.GetLowerLinLimit(), 0f, 0f); IndexedVector3 li_max = tr2 * new IndexedVector3(pSlider.GetUpperLinLimit(), 0f, 0f); debugDraw.DrawLine(ref li_min, ref li_max, ref zero); IndexedVector3 normal = tr._basis.GetColumn(0); IndexedVector3 axis = tr._basis.GetColumn(1); float a_min = pSlider.GetLowerAngLimit(); float a_max = pSlider.GetUpperAngLimit(); IndexedVector3 center = pSlider.GetCalculatedTransformB()._origin; debugDraw.DrawArc(ref center, ref normal, ref axis, dbgDrawSize, dbgDrawSize, a_min, a_max, ref zero, true); } } break; default: break; } return; }
public static void DebugDrawConstraint(TypedConstraint constraint, IDebugDraw debugDraw) { bool drawFrames = (debugDraw.GetDebugMode() & DebugDrawModes.DBG_DrawConstraints) != 0; bool drawLimits = (debugDraw.GetDebugMode() & DebugDrawModes.DBG_DrawConstraintLimits) != 0; float dbgDrawSize = constraint.GetDbgDrawSize(); if (dbgDrawSize <= 0f) { return; } switch (constraint.GetConstraintType()) { case TypedConstraintType.POINT2POINT_CONSTRAINT_TYPE: { Point2PointConstraint p2pC = constraint as Point2PointConstraint; IndexedMatrix tr = IndexedMatrix.Identity; IndexedVector3 pivot = p2pC.GetPivotInA(); pivot = p2pC.GetRigidBodyA().GetCenterOfMassTransform() * pivot; tr._origin = pivot; debugDraw.DrawTransform(ref tr, dbgDrawSize); // that ideally should draw the same frame pivot = p2pC.GetPivotInB(); pivot = p2pC.GetRigidBodyB().GetCenterOfMassTransform() * pivot; tr._origin = pivot; if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } } break; case TypedConstraintType.HINGE_CONSTRAINT_TYPE: { HingeConstraint pHinge = constraint as HingeConstraint; IndexedMatrix tr = pHinge.GetRigidBodyA().GetCenterOfMassTransform() * pHinge.GetAFrame(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } tr = pHinge.GetRigidBodyB().GetCenterOfMassTransform() * pHinge.GetBFrame(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } float minAng = pHinge.GetLowerLimit(); float maxAng = pHinge.GetUpperLimit(); if (minAng == maxAng) { break; } bool drawSect = true; if (minAng > maxAng) { minAng = 0f; maxAng = MathUtil.SIMD_2_PI; drawSect = false; } if (drawLimits) { IndexedVector3 center = tr._origin; IndexedVector3 normal = tr._basis.GetColumn(2); IndexedVector3 axis = tr._basis.GetColumn(0); IndexedVector3 zero = IndexedVector3.Zero; debugDraw.DrawArc(ref center, ref normal, ref axis, dbgDrawSize, dbgDrawSize, minAng, maxAng, ref zero, drawSect); } } break; case TypedConstraintType.CONETWIST_CONSTRAINT_TYPE: { ConeTwistConstraint pCT = constraint as ConeTwistConstraint; IndexedMatrix tr = pCT.GetRigidBodyA().GetCenterOfMassTransform() * pCT.GetAFrame(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } tr = pCT.GetRigidBodyB().GetCenterOfMassTransform() * pCT.GetBFrame(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } IndexedVector3 zero = IndexedVector3.Zero; if (drawLimits) { //const float length = float(5); float length = dbgDrawSize; const int nSegments = 8 * 4; float fAngleInRadians = MathUtil.SIMD_2_PI * (float)(nSegments - 1) / (float)nSegments; IndexedVector3 pPrev = pCT.GetPointForAngle(fAngleInRadians, length); pPrev = tr * pPrev; for (int i = 0; i < nSegments; i++) { fAngleInRadians = MathUtil.SIMD_2_PI * (float)i / (float)nSegments; IndexedVector3 pCur = pCT.GetPointForAngle(fAngleInRadians, length); pCur = tr * pCur; debugDraw.DrawLine(ref pPrev, ref pCur, ref zero); if (i % (nSegments / 8) == 0) { IndexedVector3 origin = tr._origin; debugDraw.DrawLine(ref origin, ref pCur, ref zero); } pPrev = pCur; } float tws = pCT.GetTwistSpan(); float twa = pCT.GetTwistAngle(); bool useFrameB = (pCT.GetRigidBodyB().GetInvMass() > 0f); if (useFrameB) { tr = pCT.GetRigidBodyB().GetCenterOfMassTransform() * pCT.GetBFrame(); } else { tr = pCT.GetRigidBodyA().GetCenterOfMassTransform() * pCT.GetAFrame(); } IndexedVector3 pivot = tr._origin; IndexedVector3 normal = tr._basis.GetColumn(0); IndexedVector3 axis = tr._basis.GetColumn(1); debugDraw.DrawArc(ref pivot, ref normal, ref axis, dbgDrawSize, dbgDrawSize, -twa - tws, -twa + tws, ref zero, true); } } break; case TypedConstraintType.D6_CONSTRAINT_TYPE: case TypedConstraintType.D6_SPRING_CONSTRAINT_TYPE: { Generic6DofConstraint p6DOF = constraint as Generic6DofConstraint; IndexedMatrix tr = p6DOF.GetCalculatedTransformA(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } tr = p6DOF.GetCalculatedTransformB(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } IndexedVector3 zero = IndexedVector3.Zero; if (drawLimits) { tr = p6DOF.GetCalculatedTransformA(); IndexedVector3 center = p6DOF.GetCalculatedTransformB()._origin; // up is axis 1 not 2 ? IndexedVector3 up = tr._basis.GetColumn(1); IndexedVector3 axis = tr._basis.GetColumn(0); float minTh = p6DOF.GetRotationalLimitMotor(1).m_loLimit; float maxTh = p6DOF.GetRotationalLimitMotor(1).m_hiLimit; float minPs = p6DOF.GetRotationalLimitMotor(2).m_loLimit; float maxPs = p6DOF.GetRotationalLimitMotor(2).m_hiLimit; debugDraw.DrawSpherePatch(ref center, ref up, ref axis, dbgDrawSize * .9f, minTh, maxTh, minPs, maxPs, ref zero); axis = tr._basis.GetColumn(1); float ay = p6DOF.GetAngle(1); float az = p6DOF.GetAngle(2); float cy = (float)Math.Cos(ay); float sy = (float)Math.Sin(ay); float cz = (float)Math.Cos(az); float sz = (float)Math.Sin(az); IndexedVector3 ref1 = new IndexedVector3( cy * cz * axis.X + cy * sz * axis.Y - sy * axis.Z, -sz * axis.X + cz * axis.Y, cz * sy * axis.X + sz * sy * axis.Y + cy * axis.Z); tr = p6DOF.GetCalculatedTransformB(); IndexedVector3 normal = -tr._basis.GetColumn(0); float minFi = p6DOF.GetRotationalLimitMotor(0).m_loLimit; float maxFi = p6DOF.GetRotationalLimitMotor(0).m_hiLimit; if (minFi > maxFi) { debugDraw.DrawArc(ref center, ref normal, ref ref1, dbgDrawSize, dbgDrawSize, -MathUtil.SIMD_PI, MathUtil.SIMD_PI, ref zero, false); } else if (minFi < maxFi) { debugDraw.DrawArc(ref center, ref normal, ref ref1, dbgDrawSize, dbgDrawSize, minFi, maxFi, ref zero, false); } tr = p6DOF.GetCalculatedTransformA(); IndexedVector3 bbMin = p6DOF.GetTranslationalLimitMotor().m_lowerLimit; IndexedVector3 bbMax = p6DOF.GetTranslationalLimitMotor().m_upperLimit; debugDraw.DrawBox(ref bbMin, ref bbMax, ref tr, ref zero); } } break; case TypedConstraintType.SLIDER_CONSTRAINT_TYPE: { SliderConstraint pSlider = constraint as SliderConstraint; IndexedMatrix tr = pSlider.GetCalculatedTransformA(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } tr = pSlider.GetCalculatedTransformB(); if (drawFrames) { debugDraw.DrawTransform(ref tr, dbgDrawSize); } IndexedVector3 zero = IndexedVector3.Zero; if (drawLimits) { IndexedMatrix tr2 = pSlider.GetCalculatedTransformA(); IndexedVector3 li_min = tr2 * new IndexedVector3(pSlider.GetLowerLinLimit(), 0f, 0f); IndexedVector3 li_max = tr2 * new IndexedVector3(pSlider.GetUpperLinLimit(), 0f, 0f); debugDraw.DrawLine(ref li_min, ref li_max, ref zero); IndexedVector3 normal = tr._basis.GetColumn(0); IndexedVector3 axis = tr._basis.GetColumn(1); float a_min = pSlider.GetLowerAngLimit(); float a_max = pSlider.GetUpperAngLimit(); IndexedVector3 center = pSlider.GetCalculatedTransformB()._origin; debugDraw.DrawArc(ref center, ref normal, ref axis, dbgDrawSize, dbgDrawSize, a_min, a_max, ref zero, true); } } break; default: break; } return; }