AI Recruitment
This page is work in progress
The new Recruitment Candidate Action is highly configurable and supports multiple leader recruiting...
Contents
How it works
Map analyis
In a first step the CA will analyse the map and try to find "important hexes". Those are locations on the map where a fight will occur with high probability. The important hexes are used later in combat simulations to calculate a average defense for the combatants.
If the game runs in debug mode the important hexes will be displayed with a white circle on them.
Implementation details for interested readers: [...]
Score Map
For all leaders which are available for recruiting a score map will be created including all unit-types from the recruit- and recall lists.
In the end the scores shall represent the desired unit-ratios on the map. (So the AI will not just recruit the unit with the highest score but the unit which approaches the wished mix best.) The scores are filled with values coming from combat analysis (see below).
After this the AI modifies the scores further in several ways:
- Similar units get a penalty for being similar. Similar units are units in one advancement tree.
Example (Archer can advance to Ranger): before after Elvish Fighter: 50 50 Elvish Archer: 50 25 Elvish Ranger: 50 25
- The aspects
recruitment_more
,recruitment_diversity
andrecruitment_randomness
are handled (see below).
Combat Analysis
For each unit-type our leaders can recruit the CA will simulate a fight with all enemy units on the map (If there are less then 5 enemy units, the enemies recruitment list(s) will be taken into account)
After Combat Analysis the score map could look like this:
Goblin Spearmanscore: 16.1252 Naga Fighter score: 0 Orcish Archer score: 61.6442 Orcish Assassin score: 88.0737 Orcish Grunt score: 100 Troll Whelp score: 26.7646 Wolf Rider score: 0
Implementation details for interested readers
Combat Analysis will use the function compare_unit_types(A, B)
. It takes two unit-types, simulates a fight (it uses a cache, because simulation is expensive) and returns a positive value if unit-type A
is better then B
and a negative value if unit-type B
is better then A
. If the return value is 2.0 it means that unit-type A is twice as good as unit-type B.
Here is a important code-snipped of compare_unit_types()
:
damage_to_b
comes from simulations and is the average damage dealt by A
when A
attacks (A
chooses weapon) plus the average damage dealt by A
when B
attacks (B
chooses weapon). damage_to_a
is equivalent.
double value_of_a = damage_to_b / (b_max_hp * a_cost); double value_of_b = damage_to_a / (a_max_hp * b_cost); if (value_of_a > value_of_b) { return value_of_a / value_of_b; } else if (value_of_a < value_of_b) { return -value_of_b / value_of_a; } else { return 0.; }
The return-value of compare_unit_types()
will be multiplied by the enemies current hp and added to the score map.
Included in the damage calculations are average defense (coming from "important hexes"), resistance, resistance abilities, average time of day, drain, poison, berserk, swarm and slows.
At this point the scores could be quite unhandy. They could all be negative, very high or to similar. So the scores will be transformed linear. The resulting scores are between 0.0 and 100.0.
Simplified code-snipped:
double new_100 = max_score; double new_0 = max_score - (1.5 * (max_score - average_score)); BOOST_FOREACH(double& score, scores) { score = 100 * ((score - new_0) / (new_100 - new_0)); // linear transformation if (score < 0.) { score = 0.; } }
Aspect recruitment_instruction
This is a powerful aspect to completely control recruitment via WML. Internally after the score-maps are created the CA will start to execute 'jobs' (or [recruit]
-tags). If there is no job, the AI will do nothing at all.
This aspect is quite complex and requires the composite form of an aspect.
[ai] [aspect] id=recruitment-instruction [facet] turns= [value] #(here multiple [recruit] and/or [limit] tags) [recruit] #(attributes) [/recruit] [limit] #(attributes) [/limit] [value] [/facet] [/aspect] [/ai]
Attributes inside [facet]
:
- turns="": (string) This key takes a comma separated list containing number specifying the turn. '-' can be used between two values to define a range. A empty String means all turns.
- See here for more. But note, that
invalidate_on_gamestate_change
andinvalidate_on_minor_gamestate_change
will have no effect on[recruit]
-tags. They will be read at the beginning of the turn and are then immutable.
Attributes inside [recruit]
: (with default values)
- type="": (string) This key takes a comma separated list containing the unit-type, usage or level. A empty string means all units. If more then one unit is specified the AI will decide according to the score map what to recruit.
- number=-1: (integer) A number greater than 0 will tell the AI to recruit n units. -1 means as much as possible. 0 means do not recruit.
- importance=1: (integer) The importance of a recruitment tells the AI first to recruit units with the highest importance. If gold is lacking or the castle is full, only the most important units will be recruited, the other
[recruit]
-jobs will be dropped then. - leader_id="": (string) ID of the leader which shall execute this job. Empty sting means all leaders. (Note: This is only a recommendation for the AI. If the specified leader has no free hexes the AI will use other leaders to do the job. This is because the function check_recruit_action() in contexts.hpp will automatically choose another leader if the specified hasn't any free hexes)
- total=no: (boolean) When total is set to yes the AI will count the own units on the map which matches at least one of the given types and will then recruit the difference between number and the counted amount.
- blocker=yes: (boolean) If set to yes, the AI will stop recruiting when this job cannot be done (because of lacking gold or a
[limit]
for example). If set to no the AI will drop this job and try to continue with less important ones. - pattern=no: (boolean) If set to yes, the unit to recruit will not be chosen by the AI but randomly according to the frequency in the type attribute. For example when "type=Orcish Grunt, Orcish Grunt, scout" and "number=6", the AI will recruit 6 units whereas the probability that one unit is a Grunt is twice as big as the probability that the AI will recruit a scout. If the type-attribute is empty the AI will recruit randomly. (See also recruitment_pattern)
Attributes inside [limit]
: (with default values)
- type="": (string) This key takes a comma separated list containing the unit-type, usage or level. A empty string means all units.
- max=0: (int) The maximum of units of the given type.
Notes:
- [limit] has higher priority than [recruit].
- By default when recruitment is specified for a turn, the AI will not recruit any other unit. (So if we say recruit 1 scout in turn 1 then the AI will only recruit 1 scout and not more). To prevent this behavior one can add this
[recruit]
-tag:
[recruit] importance=0 [/recruit]
According to all the default values above (all types, as much as possible, ...) the AI will now fall back when all other recruitment jobs are done. This is also the content of the [default]
-facet for the aspect.
- Only one facet at a time can be active. When there are more
[facet]
s defined in a turn the behavior is undefined. In one[facet]
can be many[recruit]
or[limit]
-tags. - Do not define more than one
[recruit]
-tags with the same importance. Note that the aspectrecruitment_pattern
will expand into a[recruit]
-tag with importance=1.
Examples
Recruit 3 Grunts (and nothing more) in turn 3-5.
[ai] [aspect] id=recruitment-instructions [facet] turns=3-5 [value] [recruit] type=Orcish Grunt number=3 [/recruit] [/value] [/facet] [/aspect] [/ai]
Recruit so, that there are at least 4 scouts in total and then recruit other units.
[ai] [aspect] id=recruitment-instructions [facet] [value] [recruit] type=scout number=4 total=yes importance=1 [/recruit] [recruit] importance=0 [/recruit] [/value] [/facet] [/aspect] [/ai]
Recruit 6 Grunts or level 2 units (whatever seems better for the AI) and nothing more.
[ai] [aspect] id=recruitment-instructions [facet] [value] [recruit] type=Orcish Grunt, 2 number=6 [/recruit] [/value] [/facet] [/aspect] [/ai]
Recruit 5 scouts with leader1 and 5 Grunts with leader 2. Do even try to recruit the Grunts if leader1 can not recruit all of the scouts.
[ai] [aspect] id=recruitment-instructions [facet] [value] [recruit] type=scout number=5 importance=2 leader_id=leader1 blocker=no [/recruit] [recruit] type=Orcish Grunt number=5 importance=1 leader_id=leader2 [/recruit] [/value] [/facet] [/aspect] [/ai]
Do not recruit in turn 4.
[ai] [aspect] id=recruitment-instructions [facet] turns=4 [value] [recruit] importance=1 number=0 [/recruit] [/value] [/facet] [/aspect] [/ai]
Do not have more than 6 units on the map.
[ai]
[aspect]
id=recruitment-instructions
[facet]
[value]
[limit]
type= #empty type means all units
max=6
[/limit]
[/value]
[/facet]
[/aspect]
[/ai]
This will not work. Only one facet can be active.
[ai] [aspect] id=recruitment-instructions [facet] turns=1-10 [value] [recruit] type=scout number=5 importance=1 [/recruit] [/value] [/facet] [facet] turns=3 [value] [recruit] type=Orcish Grunt number=3 importance=2 [/recruit] [/value] [/facet] [/aspect] [/ai]
To achieve this behavior one have to create a facet for turn 1-2, a facet for turn 3 and another facet for turn 4-10.
Aspect recruitment_save_gold
How it works
Sometimes it's a good idea not to spend all gold immediately for several reasons:
- To save the upkeep,
- To wait for the enemy to recruit first to counter easily,
- To save money for the next scenario when the enemy is almost defeated.
At the same time it is a good idea (especially for the AI) to recruit in "waves" (in contrary to recruit one unit each turn).
For this we have the aspect "recruitment_save_gold".
The Recruitment CA is always in one of the following states:
- NORMAL,
- SAVE_GOLD,
- SPEND_ALL_GOLD,
- LEADER_IN_DANGER.
Except the state LEADER_IN_DANGER, the states are persistent over turns.
The AI keeps track of a "unit_ratio". This is our_total_unit_costs / enemy_total_unit_costs
whereas the costs are the sum of the cost of all units on the map weighted by their HP.
Also the AI tries to estimate the total income over the next 5 turns. (This is a quite rough estimation, but that's fine.)
When the AI is in state NORMAL and the unit_ratio exceeds a predefined threshold ("begin") and the estimated income is positive, the AI will switch to the state SAVE_GOLD. Now the AI doesn't recruit units anymore until the unit_ratio falls below another predefined threshold ("end"). Then the AI will switch to the NORMAL state and recruit again.
One can imagine that the AI can save quite a lot of gold with this behavior. But saving gold forever is senseless. So when the AI has more gold then a predefined value ("spend_all_gold"), it will switch into the state SPEND_ALL_GOLD and recruit a big army to start a offensive wave.
The AI will ignore all those gold saving strategies when there is a LEADER_IN_DANGER. That happens when a enemy is near the leader (3 hexes).
The Aspect
This aspect requires also the composite form.
[ai]
[aspect]
id=recruitment_save_gold
[facet]
[value]
#(attributes)
[/value]
[/facet]
[/aspect]
[/ai]
Attributes inside [value]
(with default values)
- active=yes: (boolean) If
active=no
the AI will always recruit if gold is available. - begin=1.0: (double) See explanation above.
- end=0.7: (double) See explanation above.
- spend_all_gold=-1: (int) See explanation above. If set to -1 the value will automatically set to the teams start gold + 1.
Example
This example is filled with all default values and there quick coping.
[ai] [aspect] id=recruitment_save_gold [facet] [value] active=yes begin=1.0 end=0.7 spend_all_gold=-1 [/value] [/facet] [/aspect] [/ai]