when you comment, it returns 3;

because hashCode() inherited from the Object is ONLY called which returns 3 different hashcodes for the 3 ToDos objects. The unequal hashcodes means the 3 objects are destined to different buckets and equals() return false as they are the first entrant in their respective buckets.
If the hashCodes are different it is understood in advance that the objects are unequal.
They will go in different buckets.

when you uncomment, it returns 2;

because here the overridden hashCode() is called which returns the same value for all the ToDos and they all will have to go into one bucket, connected linearly.
Equal hashcodes dont promise anything about the equality or inequality of objects.

hashCode() for t3 is 9 and as it is the first entrant, equals() is false and t3 inserted in the bucket- say bucket0.

Then t2 getting the same hashCode() as 9 is destined for the same bucket0, a subsequent equals() on the already residing t3 in bucket0 returns false by the definition of overridden equal().

Now t1 with hashCode() as 9 is also destined for bucket0, and a subsequent equals() call returns true when compared with the pre-existing t2 in the same bucket. t1 fails to enter the map.
So the net size of map is 2 -> {ToDos@9=cleanAttic, ToDos@9=payBills}

This explains the importance of implementing both equals() and hashCode(), and in such a way that the fields taken up in determining equals() must also be taken when determining hashCode().
This will guarantee that if two objects are equal they will always have same hashCodes. hashCodes should not be perceived as pseudo-random numbers as they must be consistent with equals()