Agree with Denis - this depends on how your data is stored.
I'd suggest you implement your hierarchy using the TSQL HierarchyId datatype. You can then very easily check if a row is a descendent of another row using IsDescendent
DECLARE @searchId HierarchyId -- select your id
SELECT @searchId = HierarchyId FROM Devices WHERE DeviceId = 1
SELECT * FROM Devices
-- not children
DeviceHierarchyId.IsDescendantOf(@seachId) = 0
-- not parents
AND @searchId.IsDescendantOf(DeviceHierarchyId) = 0
To briefly explain the HierarchyId datatype and how this would work, consider that each item has a place in a hierarchy under a root node. (If you have multiple natural roots, you would place each root under a super-root). Each hierarchyid column stores the complete hierarchical position of item. For example
Id | ParentId | HierarchyId
1 | null | \1
2 | 1 | \1\2
3 | 1 | \1\3
4 | 3 | \1\3\4
and so on. To check whether an item is a child of another, simply check whether the hierarchyId is contained within the other row's hierarchyId - e.g. 4 is a child of 3 because the entire
\1\3 is contained within it's hierarchyId
\1\3\4, but 4 is not a child of 2 because
\1\2 is not contained within the hierarchyId.
To see whether an itemA is a parent of itemB, check whether itemB is a child of itemA.
Finally, you don't actually need to do any comparisons. The TSQL HierarchyId type contains a number of methods, one of which is the
IsDescendantOf method that I've highlighted above. So a usage like
hierarcyId1.IsDescendantOf(hierarchyId2) performs the kind of check that I've described here. The hierarchyIds are binary and are compared very quickly in the database.
I would use hierarchyId whenever possible when dealing with a database hierarchy.