Your problem is related to the concept of relationship cardinality. All relationships have some cardinality, which expresses the potential number of instances on each side of the relationship that are members of it, or can participate in a single instance of the relationship. As an example, for people, (for most living things, I guess, with rare exceptions), the Parent-Child relationship has a cardinality of
2 to zero or many, meaning it takes two parents on the parent side, and there can be zero or many children (perhaps it should be
2 to 1 or many)
In database design, generally, anything that has a 1(one), (or a zero or one), on one side can be easily represented with just two tables, one for each entity, (sometimes only one table is needed see note**) and a foreign key column in the table representing the "many" side, that points to the other table holding the entity on the "one" side.
In your case you have a
many to many relationship. (A Task can have multiple predecessors, and each predecessors can certainly be the predecessor for multiple tasks) In this case a third table is needed, where each row, effectively, represents an association between 2 tasks, representing that one is the predecessor to the other. Generally, This table is designed to contain only all the columns of the primary keys of the two parent tables, and it's own primary key is a composite of all the columns in both parent Primary keys. In your case it simply has two columns, the taskId, and the PredecessorTaskId, and this pair of Ids should be unique within the table so together they form the composite PK.
When querying, to avoid double counting data columns in the parent tables when there are multiple joins, simply base the query on the parent table... e.g., to find the duration of the longest parent,
Assuming your association table is named TaskPredecessor
Select TaskId, Max(P.Duration)
From Task T Join Task P
On P.TaskId In (Select PredecessorId
Where TaskId = T.TaskId)
** NOTE. In cases where both entities in the relationship are of the same entity type, they can both be in the same table. The canonical (luv that word) example is an employee table with the many to one relationship of Worker to Supervisor... Since the supervisor is also an employee, both workers and supervisors can be in the same [Employee] table, and the realtionship can gbe modeled with a Foreign Key (called say SupervisorId) that points to another row in the same table and contains the Id of the employee record for that employee's supervisor.