If you have a manageable number of abilities, you might consider looking at each one as a bit-wise integer value and using a bitmask to determine if specific requirements are met. This might be presented best with example tables:
ability_id name bit_value cost
1 swords 1 ?
2 shield 10 ?
3 alchemy 100 ?
4 potions 1000 ?
5 brawling 10000 ?
6 archery 100000 ?
7 fencing 1000000 ?
8 new ability 10000000 ?
bitmask_id bitmask notes
1 11 swords && shield
2 101 swords && alchemy
3 1001 swords && potions
4 10001 swords && brawling
5 100001 swords && archery
6 1 swords
7 1100000 archery && fencing
Note that I am showing both
archery && fencing related to your suggested rule of
swords || (archery && fencing) This rule however does not make logical sense as this renders all the other requirements (numbers 1-5 on the table above) moot as having only swords would suffice for the ability. I also split these on two lines as logical equivalent is having 4 rules instead of the 3 initially noted.
Next, you need a table to map the available abilities to the bitmasks which would "unlock" them.
Now you would simply have a bitmask of all abilities your character currently has with which you could compare against the bitmask table to see which rules are satisfied. The query might look like this:
SELECT bitmask_id FROM ability_bitmasks WHERE bitmask & [your character's input bitmask] != 0
Or to take it a step further, you could get the eligible abilities via JOIN
a.ability_id AS ability_id,
a.name AS name,
a.cost AS cost
FROM ability AS a
INNER JOIN ability_to_bitmasks AS atb on a.ability_id = atb.ability_id
INNER JOIN ability_bitmasks AS ab on atb.bitmask_id = ab.bitmask_id
WHERE ab.bitmask & [your character's input bitmask] != 0
So say you have a character with abilities - sword, potions, and archery. The bitmask would be:
A query using this bitmask would trigger bitmask ID's 3, 5, and 6 which all have references to ability id 8.
Also note that you can use an integer field instead of a bit field if you like (with values 1, 2, 4, 8, 16, 32, ...) and use bitwise comparison on the integers. This might actually be easier to work with from in data management standpoint. I simply chose to use bit fields in this example, as hopefully it illustrates the usage a little better.