private void GroupObjects() { List <int> objectsAlreadyInAGroup = new List <int>(); for (int i = 0; i < m_TrackedObjects.Count; i++) { TrackedObjectConfig obj = m_TrackedObjects[i]; MeasurmentGroup currentGroup = null; if (objectsAlreadyInAGroup.IndexOf(i) == -1) { currentGroup = new MeasurmentGroup(m_FWHM, obj, i); objectsAlreadyInAGroup.Add(i); m_MeasurementGroups.Add(currentGroup); } else { continue; } if (currentGroup != null) { for (int j = i + 1; j < m_TrackedObjects.Count; j++) { if (currentGroup.IsCloseEnoughToBelongToTheGroup(m_TrackedObjects[j])) { currentGroup.AddObjectInGroup(m_TrackedObjects[j], j); objectsAlreadyInAGroup.Add(j); } } } } }
private void GroupObjects() { List<int> objectsAlreadyInAGroup = new List<int>(); for (int i = 0; i < m_TrackedObjects.Count; i++) { TrackedObjectConfig obj = m_TrackedObjects[i]; MeasurmentGroup currentGroup = null; if (objectsAlreadyInAGroup.IndexOf(i) == -1) { currentGroup = new MeasurmentGroup(m_FWHM, obj, i); objectsAlreadyInAGroup.Add(i); m_MeasurementGroups.Add(currentGroup); } else continue; if (currentGroup != null) { for (int j = i + 1; j < m_TrackedObjects.Count; j++) { if (currentGroup.IsCloseEnoughToBelongToTheGroup(m_TrackedObjects[j])) { currentGroup.AddObjectInGroup(m_TrackedObjects[j], j); objectsAlreadyInAGroup.Add(j); } } } } }