void CameraOrbit(KFbxScene* pScene, KFbxVector4 lOrigCamPos, double OrigRoll, int dX, int dY) { KFbxCamera* lCamera = GetCurrentCamera(pScene); if (!lCamera) return; KFbxGlobalCameraSettings& lGlobalCameraSettings = pScene->GlobalCameraSettings(); if (lCamera != lGlobalCameraSettings.GetCameraProducerPerspective()) return; if (lCamera->LockMode.Get()) return; if (dX == 0 && dY == 0) return; KFbxVector4 lRotationVector, lNewPosition, lCurPosition; KFbxXMatrix lRotation; KFbxVector4 lCenter = lCamera->InterestPosition.Get(); KFbxVector4 lPosition = lCamera->Position.Get(); lCurPosition = lPosition-lCenter; lNewPosition = lOrigCamPos-lCenter; int rotX; if (lNewPosition[2] == 0) { rotX = 90; } else { rotX = (int) (180.0* atan((double)lNewPosition[0]/(double)lNewPosition[2]) / 3.14159); } bool bRoll = (((int)OrigRoll % 360) != 0); if ( (lNewPosition[2] < 0 && !bRoll) || (lNewPosition[2] > 0 && bRoll) ) { dY = -dY; } if (bRoll) dX = -dX; lRotationVector[1] = -rotX; lRotation.SetR(lRotationVector); lNewPosition = lRotation.MultT(lNewPosition); lRotationVector[1] = 0; lRotationVector[0] = dY; lRotation.SetR(lRotationVector); lNewPosition = lRotation.MultT(lNewPosition); lRotationVector[0] = 0; lRotationVector[1] = rotX; lRotation.SetR(lRotationVector); lNewPosition = lRotation.MultT(lNewPosition); lRotationVector[1] = -dX; lRotation.SetR(lRotationVector); lNewPosition = lRotation.MultT(lNewPosition); if ( lNewPosition[0]*lCurPosition[0] < 0 && lNewPosition[2]*lCurPosition[2] < 0) { double lRoll = lCamera->Roll.Get(); lRoll = 180.0-lRoll; lCamera->Roll.Set(lRoll); } lNewPosition = lNewPosition + lCenter; lCamera->Position.Set(lNewPosition); }
// Get the geometry deformation local to a node. It is never inherited by the // children. KFbxXMatrix GetGeometry(KFbxNode* pNode) { KFbxVector4 lT, lR, lS; KFbxXMatrix lGeometry; lT = pNode->GetGeometricTranslation(KFbxNode::eSOURCE_SET); lR = pNode->GetGeometricRotation(KFbxNode::eSOURCE_SET); lS = pNode->GetGeometricScaling(KFbxNode::eSOURCE_SET); lGeometry.SetT(lT); lGeometry.SetR(lR); lGeometry.SetS(lS); return lGeometry; }
KFbxXMatrix FilmboxNode::GetGeometricTransform() const { KFbxXMatrix value; value.SetIdentity(); if( m_node ) { KFbxVector4 translation = m_node->GeometricTranslation.Get(); KFbxVector4 rotation = m_node->GeometricRotation.Get(); KFbxVector4 scale = m_node->GeometricScaling.Get(); value.SetS( scale ); value.SetR( rotation ); value.SetT( translation ); } return value; }
// Set the view to the current camera settings. void SetCamera(KFbxScene* pScene, KTime& pTime, KFbxAnimLayer* pAnimLayer, KArrayTemplate<KFbxNode*>& pCameraArray) { KFbxCamera* lCamera = GetCurrentCamera(pScene, pTime, pCameraArray); KFbxNode* lCameraNode = lCamera ? lCamera->GetNode() : NULL; KFbxVector4 lEye(0,0,1); KFbxVector4 lCenter(0,0,0); KFbxVector4 lUp(0,1,0); KFbxVector4 lForward, lRight; if (lCamera) { lEye = lCamera->Position.Get(); lUp = lCamera->UpVector.Get(); } if (lCameraNode && lCameraNode->GetTarget()) { lCenter = GetGlobalPosition(lCameraNode->GetTarget(), pTime).GetT(); } else { if (!lCameraNode || IsProducerCamera(pScene, lCamera)) { if (lCamera) lCenter = lCamera->InterestPosition.Get(); } else { KFbxXMatrix lGlobalRotation; KFbxVector4 lRotationVector(GetGlobalPosition(lCameraNode, pTime).GetR()); lGlobalRotation.SetR(lRotationVector); KFbxVector4 lInterestPosition(lCamera->InterestPosition.Get()); KFbxVector4 lCameraGlobalPosition(GetGlobalPosition(lCameraNode, pTime).GetT()); double lLength = (KFbxVector4(lInterestPosition - lCameraGlobalPosition).Length()); lRotationVector = KFbxVector4(1.0,0,0); lCenter = lGlobalRotation.MultT(lRotationVector); lCenter *= lLength; lCenter += lEye; lRotationVector = KFbxVector4(0,1.0,0); lUp = lGlobalRotation.MultT(lRotationVector); } } lForward = lCenter - lEye; lForward.Normalize(); lRight = lForward.CrossProduct(lUp); lRight.Normalize(); lUp = lRight.CrossProduct(lForward); lUp.Normalize(); double lRadians = 0; if (lCamera) lRadians = 3.1416 * lCamera->Roll.Get() / 180.0; lUp *= cos(lRadians); lRight *= sin(lRadians); lUp = lUp + lRight; double lNearPlane = 0.01; if (lCamera) lNearPlane = lCamera->GetNearPlane(); double lFarPlane = 1000.0; if (lCamera) lFarPlane = lCamera->GetFarPlane(); if (lCamera && lCamera->ProjectionType.Get() == KFbxCamera::ePERSPECTIVE) { double lFieldOfViewY=0.0; double lAspect = lCamera->GetApertureWidth() * lCamera->GetSqueezeRatio() / lCamera->GetApertureHeight(); if (lCamera->GetApertureMode() == KFbxCamera::eHORIZONTAL || lCamera->GetApertureMode() == KFbxCamera::eVERTICAL) { lFieldOfViewY = lCamera->FieldOfView.Get(); if (lCamera->GetApertureMode() == KFbxCamera::eHORIZONTAL) lFieldOfViewY /= lAspect; } else if (lCamera->GetApertureMode() == KFbxCamera::eFOCAL_LENGTH) { lFieldOfViewY = lCamera->ComputeFieldOfView(lCamera->FocalLength.Get()); lFieldOfViewY /= lAspect; } else if (lCamera->GetApertureMode() == KFbxCamera::eHORIZONTAL_AND_VERTICAL) { lFieldOfViewY = lCamera->FieldOfViewY.Get(); } GlSetCameraPerspective(lFieldOfViewY, lAspect, lNearPlane, lFarPlane, lEye, lCenter, lUp); } else { double lPixelRatio = 1.0; if (lCamera) lPixelRatio = lCamera->GetPixelRatio(); int lWidth, lHeight; double lLeftPlane, lRightPlane, lBottomPlane, lTopPlane; GlGetWindowSize(lWidth, lHeight); if(lWidth < lHeight) { lLeftPlane = -gsOrthoCameraScale * lPixelRatio; lRightPlane = gsOrthoCameraScale * lPixelRatio; lBottomPlane = -gsOrthoCameraScale * lHeight / lWidth; lTopPlane = gsOrthoCameraScale * lHeight / lWidth; } else { lWidth *= (int) lPixelRatio; lLeftPlane = -gsOrthoCameraScale * lWidth / lHeight; lRightPlane = gsOrthoCameraScale * lWidth / lHeight; lBottomPlane = -gsOrthoCameraScale; lTopPlane = gsOrthoCameraScale; } GlSetCameraOrthogonal(lLeftPlane, lRightPlane, lBottomPlane, lTopPlane, lNearPlane, lFarPlane, lEye, lCenter, lUp); } }