def test_buff_cancelling_when_other_buff_triggering(self):
buffable = Buffable()
buff_id_1 = 1
buff_id_2 = 2
buff_1 = BuffBuilder(buff_id_1).modify("+", 50, Attributes.ATK).whenever(DamageEvent)\
.just_if("not has_buff 2").build()
buff_2 = BuffBuilder(buff_id_2).modify(
"+", 75, Attributes.ATK).whenever(DamageEvent).build()
# A condition that can be triggered by a MockEvent
@buffspecs.AddConditionFor([BuffEvent])
def has_buff(event, buff_id):
return buff_id in event.buffable.active_buffs
add_buff(buffable, buff_1, CompleteBuildingEvent())
call_event(DamageEvent(buffable))
# Player does not have buff 2 so he should be getting buff 1
assert buffable.attributes[Attributes.ATK] == 50
assert buff_id_1 in buffable.active_buffs
add_buff(buffable, buff_2, CompleteBuildingEvent())
call_event(DamageEvent(buffable))
# Now that he got buff 2 applied, buff 1 should be removed and only buff 2 is applied
assert buffable.attributes[Attributes.ATK] == 75
assert buff_id_1 not in buffable.active_buffs
assert buff_id_2 in buffable.active_buffs
def test_increasing_propagation_source_attribute_repropagates_derivation(
self):
player = Player()
player.attributes[Attributes.ATK] = 200
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
# 50% of equipment attack goes to player DEF
add_buff(equipment,
BuffBuilder().modify("%", 0.5, Attributes.ATK)\
.propagates_to_attribute(Attributes.DEF).propagates_to(Player).build(),
CompleteBuildingEvent()
)
# 50% of the EQUIPMENT ATK (100) should have gone to player DEF
assert equipment.attributes[Attributes.ATK] == 100
assert player.attributes[
Attributes.DEF] == equipment.attributes[Attributes.ATK] * 0.5
# +100 to Equipment ATTACK, it should propagate 50% of it to player DEF
add_buff(equipment,
BuffBuilder().modify("+", 100, Attributes.ATK).build(),
CompleteBuildingEvent())
assert equipment.attributes[Attributes.ATK] == 200
assert player.attributes[
Attributes.DEF] == equipment.attributes[Attributes.ATK] * 0.5
def test_basic_buff_dependency(self):
buffable = Buffable()
buff_id_1 = 1
buff_id_2 = 2
buff_1 = BuffBuilder().modify(
"+", 50, Attributes.ATK).just_if("has_buff 2").build()
buff_2 = BuffBuilder().modify("+", 50, Attributes.ATK).build()
# A condition that can be triggered by a MockEvent
@buffspecs.AddConditionFor([BuffEvent])
def has_buff(event, buff_id):
return buff_id in event.buffable.active_buffs
add_buff(buffable, buff_1, CompleteBuildingEvent())
# Player should not be modified because he did not have buff 2
assert buffable.attributes[Attributes.ATK] == 0
# Adding the second buff should trigger the first one because his condidion matched
add_buff(buffable, buff_2, CompleteBuildingEvent())
# Both buffs should be applied now
assert buffable.attributes[Attributes.ATK] == 100
assert buff_id_1 in buffable.active_buffs
assert buff_id_2 in buffable.active_buffs
def test_changing_source_attribute_affects_derivated_attribute(self):
buffable = Buffable()
buffable.attributes[Attributes.ATK] = 100
# Simple buff that 50% of your attack goes to your def
buff = BuffBuilder().modify("%", 0.5, Attributes.ATK).to_attribute(
Attributes.DEF).build()
add_buff(buffable, buff, CompleteBuildingEvent())
# Player should have got 50% of his atk (50) to def
assert buffable.attributes[Attributes.DEF] == 50
assert buffable.attributes[Attributes.ATK] == 100
# Now we add +100 attack to the player, his 50% buff instead of giving 50 def should give 100 def
buff_2 = BuffBuilder().modify("+", 100, Attributes.ATK).build()
add_buff(buffable, buff_2, CompleteBuildingEvent())
# Player defense should be updated as his attack increased
assert buffable.attributes[Attributes.DEF] == 100
assert buffable.attributes[Attributes.ATK] == 200
# Now removing the buff should re-calculate the derivation as well
remove_buff(buffable, buff_2.buff_id)
# Player should have got 50% of his atk (50) to def as it should be derivating from 100 atk again
assert buffable.attributes[Attributes.DEF] == 50
assert buffable.attributes[Attributes.ATK] == 100
def test_propagation_registering_triggers_properly(self):
player = Player()
player.attributes[Attributes.ATK] = 50
player.attributes[Attributes.DEF] = 75
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
castle = Castle()
castle.players = [player]
# 50% of player def becomes player HP
add_buff(equipment,
BuffBuilder(1).modify("%", 0.5, Attributes.DEF).to_attribute(Attributes.HP) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert len(equipment.activation_triggers) == 0
assert len(player.activation_triggers) == 0
assert len(equipment.propagation_triggers) == 0
add_buff(equipment,
BuffBuilder(2).modify("%", 0.5, Attributes.ATK).propagates_to_attribute(Attributes.HP) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert len(equipment.propagation_triggers) == 0
assert len(player.activation_triggers) == 0
def test_inactivating_propagation_target(self):
player = Player()
player.attributes[Attributes.HP] = 10
castle = Castle()
castle.players.append(player)
# A global castle buff of +50 ATK
castle_buff = BuffBuilder().modify("+", 50, Attributes.ATK).propagates_to(Player)\
.whenever(FartEvent).just_if("is_healthy").build()
@buffspecs.AddConditionFor([BuffEvent])
def is_healthy(event):
return event.buffable.attributes[Attributes.HP] > 0
add_buff(castle, castle_buff, CompleteBuildingEvent())
# Call the event triggering the buff
call_event(FartEvent(player))
assert player.attributes[Attributes.ATK] == 50
inactivate_buff(player, castle_buff, None)
assert player.attributes[Attributes.ATK] == 0
assert castle_buff.buff_id not in player.active_buffs
# Activation trigger should be registered because buff had a condition that can change
assert len(player.activation_triggers["FartEvent"]) == 1
def test_propagation_with_triggers(self):
player = Player()
player.attributes[Attributes.ATK] = 100
# A global castle buff of 50% ATK
castle_buff = BuffBuilder().modify("%", 0.5, Attributes.ATK)\
.propagates_when(RecruitPlayerEvent).propagates_to(Player).build()
castle = Castle()
castle.players.append(player)
add_buff(castle, castle_buff, CompleteBuildingEvent())
# Castle should have a propagation trigger not a activation trigger
assert castle_buff.buff_id not in castle.activation_triggers[
"RecruitPlayerEvent"]
assert castle_buff.buff_id in castle.propagation_triggers[
"RecruitPlayerEvent"]
# Event was not triggered, so player should not get modified
assert player.attributes[Attributes.ATK] == 100
# Now we trigger the event and expect the propagation to happen
call_event(RecruitPlayerEvent(castle))
# Now the buff should have been applied
assert player.attributes[Attributes.ATK] == 150
assert castle_buff.buff_id in player.active_buffs
assert castle_buff.buff_id in castle.active_buffs
# The propagation trigger should not consumed
assert castle_buff.buff_id in castle.propagation_triggers[
"RecruitPlayerEvent"]
def test_derivating_the_propagated_value(self):
player = Player()
player.attributes[Attributes.ATK] = 200
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
# 50% of equipment attack goes to player DEF
equipment_buff_2 = BuffBuilder().modify("%", 0.5, Attributes.ATK)\
.propagates_to_attribute(Attributes.DEF).propagates_to(Player).build()
add_buff(equipment, equipment_buff_2, CompleteBuildingEvent())
# Atk should not be modified
assert player.attributes[Attributes.ATK] == 200
# 50% of the EQUIPMENT ATK (100) should have gone to player DEF
assert player.attributes[
Attributes.DEF] == equipment.attributes[Attributes.ATK] * 0.5
# Equipment should not be affected
assert equipment.attributes[Attributes.ATK] == 100
assert equipment.attributes[Attributes.DEF] == 0
# Derivation should be stored in the target, not the propagator
assert len(equipment.attributes.get_data(
Attributes.ATK).derivations) == 0
assert len(player.attributes.get_data(Attributes.ATK).derivations) == 1
def test_derivation_debug_history(self):
buffable = Buffable()
buffable.attributes[Attributes.ATK] = 100
buff = BuffBuilder().modify("%", 0.5, Attributes.ATK).to_attribute(
Attributes.DEF).build()
add_buff(buffable, buff, CompleteBuildingEvent())
atk_modification_history = list(
buffable.attributes.get_data(Attributes.DEF).history.values())
last_modification = atk_modification_history[0]
# The original modifier should be in history as well
assert last_modification.modifier.value == 0.5
assert last_modification.modifier.attribute_id == Attributes.ATK
assert last_modification.modifier.operator == "%"
# It should have created an modifier of 50% of user atk, since atk was 100, thats +50 DEF
assert last_modification.derivated_modifier.value == 50
assert last_modification.derivated_modifier.attribute_id == Attributes.DEF
assert last_modification.derivated_modifier.operator == "+"
assert last_modification.buff_id == buff.buff_id
event_chain = last_modification.source_event.get_event_chain()
assert isinstance(event_chain[0], AddBuffEvent)
assert isinstance(event_chain[1], CompleteBuildingEvent)
def test_propagation_with_stacks(self):
player = Player()
castle = Castle()
castle.players.append(player)
# A global castle buff of +50 ATK
castle_buff = BuffBuilder().modify("+", 50, Attributes.ATK).propagates_to(Player).stacks(3).build()
# Add the first stack
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.attributes[Attributes.ATK] == 50
assert player.active_buffs[castle_buff.buff_id].stack == 1
assert castle.active_buffs[castle_buff.buff_id].stack == 1
# Add a second stack
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.active_buffs[castle_buff.buff_id].stack == 2
assert castle.active_buffs[castle_buff.buff_id].stack == 2
assert player.attributes[Attributes.ATK] == 100
# Add a the third stack
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.attributes[Attributes.ATK] == 150
# An extra stack should not propagate the buff anymore
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.attributes[Attributes.ATK] == 150
def test_propagating_a_derivation_buff(self):
# Simple derivation buff
buffable = Buffable()
buffable.attributes[Attributes.ATK] = 100
buff = BuffBuilder().modify("%", 0.5, Attributes.ATK).to_attribute(
Attributes.DEF).build()
# We want to track the performance of this
with TrackStack() as track:
add_buff(buffable, buff, CompleteBuildingEvent())
def test_propagating_a_derivation_buff(self):
player = Player()
player.attributes[Attributes.ATK] = 50
player.attributes[Attributes.DEF] = 75
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
castle = Castle()
castle.players = [player]
# 50% of player def becomes player HP
add_buff(equipment,
BuffBuilder(1).modify("%", 0.5, Attributes.DEF).to_attribute(Attributes.HP) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert player.attributes[Attributes.DEF] == 75
assert player.attributes[Attributes.HP] == 75 / 2
# 50% of equipment attack goes to player DEF
add_buff(equipment,
BuffBuilder(2).modify("%", 0.5, Attributes.ATK).propagates_to_attribute(Attributes.DEF) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert player.attributes[Attributes.DEF] == 125
assert player.attributes[Attributes.HP] == 125 / 2
# Remove the player DEF -> HP derivation
remove_buff(equipment, 1)
foka = (125 + 40 + 40 + 50) / 2
asd = player.attributes[Attributes.HP]
assert player.attributes[Attributes.DEF] == 125
assert player.attributes[Attributes.HP] == 0
def test_double_propagation(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle = Castle()
castle.players.append(player)
equipment = Equipment()
equipment.owner = player
# A global castle buff of 50% ATK
castle_buff = BuffBuilder().modify(
"%", 0.5, Attributes.ATK).propagates_to(Player).build()
# Equipment buff of 100% bonus atk
equipment_buff = BuffBuilder().modify(
"%", 1, Attributes.ATK).propagates_to(Player).build()
add_buff(castle, castle_buff, CompleteBuildingEvent())
add_buff(equipment, equipment_buff, CompleteBuildingEvent())
assert len(player.active_buffs) == 2
# flat bonus = 100, 250% total bonus from propagations, so 250 final value
assert player.attributes[Attributes.ATK] == 250
def test_removing_derivation_buff_updates_derivated_attributes(self):
buffable = Buffable()
buffable.attributes[Attributes.ATK] = 100
buffable.attributes[Attributes.DEF] = 100
# Simple buff that 50% of your attack goes to your def
buff = BuffBuilder().modify("%", 0.5, Attributes.ATK).to_attribute(
Attributes.DEF).build()
add_buff(buffable, buff, CompleteBuildingEvent())
# 50% of your def, goes to your HP
buff_2 = BuffBuilder().modify("%", 0.5, Attributes.DEF).to_attribute(
Attributes.HP).build()
add_buff(buffable, buff_2, CompleteBuildingEvent())
# Player defense should be updated as his attack increased
assert buffable.attributes[Attributes.DEF] == 150
assert buffable.attributes[Attributes.HP] == 75
remove_buff(buffable, buff.buff_id)
assert buffable.attributes[Attributes.DEF] == 100
assert buffable.attributes[Attributes.HP] == 50
def test_removing_propagation(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle_buff = BuffBuilder().modify(
"%", 0.5, Attributes.ATK).propagates_to(Player).build()
castle = Castle()
castle.players.append(player)
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.attributes[Attributes.ATK] == 150
remove_buff(castle, castle_buff.buff_id)
assert player.attributes[Attributes.ATK] == 100
def test_chaining_propagation(self):
player = Player()
player.attributes[Attributes.ATK] = 100
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
# 50% of player DEF becomes player HP
add_buff(equipment,
BuffBuilder().modify("%", 0.5, Attributes.DEF).to_attribute(Attributes.HP) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
# 50% of equipment attack goes to player DEF
add_buff(equipment,
BuffBuilder().modify("%", 0.5, Attributes.ATK).propagates_to_attribute(Attributes.DEF) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert player.attributes[Attributes.DEF] == 50
assert player.attributes[Attributes.HP] == 25
def test_propagation_condition_and_trigger(self):
player1 = Player()
player1.attributes[Attributes.ATK] = 100
castle = Castle()
castle.players.append(player1)
# A global castle buff that propagates that 50% ATK to players if a castle has 3 or more players
castle_buff = BuffBuilder().modify("%", 0.5, Attributes.ATK)\
.propagates_when(RecruitPlayerEvent).only_propagates_if("cond_has_qtd_players 2").propagates_to(Player).build()
@buffspecs.AddConditionFor([BuffEvent])
def cond_has_qtd_players(event, amt):
return len(event.buffable.players) >= amt
add_buff(castle, castle_buff, CompleteBuildingEvent())
# The buff is not active on the player
assert castle_buff.buff_id in castle.active_buffs
assert castle_buff.buff_id not in player1.active_buffs
# Castle should have registered the trigger
assert "RecruitPlayerEvent" not in castle.activation_triggers
assert "RecruitPlayerEvent" in castle.propagation_triggers
# add another player to the castle
player2 = Player()
player2.attributes[Attributes.ATK] = 200
castle.players.append(player2)
call_event(RecruitPlayerEvent(castle))
# Now that we matched the condition all 3 players should have been propagated and have 50% bonus
assert player1.attributes[Attributes.ATK] == 100 * 1.5
assert player2.attributes[Attributes.ATK] == 200 * 1.5
# Adding a new player should propagate the buff to the new player as well
player3 = Player()
player3.attributes[Attributes.ATK] = 300
castle.players.append(player3)
call_event(RecruitPlayerEvent(castle))
# Should not affect the other players
assert player1.attributes[Attributes.ATK] == 100 * 1.5
assert player2.attributes[Attributes.ATK] == 200 * 1.5
# Should propagate to the new player
assert player3.attributes[Attributes.ATK] == 300 * 1.5
def test_inactivating_propagator(self):
player = Player()
castle = Castle()
castle.players.append(player)
# A global castle buff of +50 ATK
castle_buff = BuffBuilder().modify(
"+", 50, Attributes.ATK).propagates_to(Player).build()
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.attributes[Attributes.ATK] == 50
inactivate_buff(castle, castle_buff, None)
assert player.attributes[Attributes.ATK] == 0
def test_propating_two_targets(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle = Castle()
player.castle = castle
castle.players.append(player)
# A global castle buff of bonus coins collected that can affect both players and castles
castle_buff = BuffBuilder().modify(
"+", 10,
Attributes.BONUS_COINS_COLLECTED).propagates_to(Player,
Castle).build()
add_buff(castle, castle_buff, CompleteBuildingEvent())
# Both players and castles shall have bonus coins collected
assert player.attributes[Attributes.BONUS_COINS_COLLECTED] == 10
assert castle.attributes[Attributes.BONUS_COINS_COLLECTED] == 10
def test_simple_derivation(self):
buffable = Buffable()
buffable.attributes[Attributes.ATK] = 100
# Simple buff that 50% of your attack goes to your def
buff = BuffBuilder().modify("%", 0.5, Attributes.ATK).to_attribute(
Attributes.DEF).build()
add_buff(buffable, buff, CompleteBuildingEvent())
# Player should have got 50% of his atk (50) to def
assert buffable.attributes[Attributes.DEF] == 50
assert buffable.attributes[Attributes.ATK] == 100
assert buff.buff_id in buffable.active_buffs
# Checking the derivation has been registered
assert list(
buffable.attributes.get_data(
Attributes.ATK).derivations.keys())[0] == Attributes.DEF
def test_performance(self):
player1 = Player()
player1_equips = []
for i in range(10):
equip = Equipment()
equip.owner = player1
player1_equips.append(equip)
player2 = Player()
player2_equips = []
for i in range(10):
equip = Equipment()
equip.owner = player2
player2_equips.append(equip)
castle = Castle()
castle.players = [player1, player2]
seed = 1234
random.seed(seed)
buff_targets = {}
for i in range(10):
builder = BuffBuilder()
modifier = random_modifier()
builder.modify(*modifier)
propagates = False
apply_to, propagate_to = random_targets()
if chance_pct(25):
builder.to_attribute(random_attribute(exlude=modifier[2]))
if chance_pct(25):
propagates = True
builder.propagates_to_attribute(random_attribute())
def test_propagation_wont_duplicate_buffs(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle_buff = BuffBuilder().modify("%", 0.5, Attributes.ATK) \
.propagates_when(RecruitPlayerEvent).propagates_to(Player).build()
castle = Castle()
castle.players.append(player)
add_buff(castle, castle_buff, CompleteBuildingEvent())
# Trigger the event twice
call_event(RecruitPlayerEvent(castle))
call_event(RecruitPlayerEvent(castle))
# The propagation should have happened only once
assert len(player.active_buffs) == 1
assert player.attributes[Attributes.ATK] == 150
def test_buff_event_modifications_log(self):
buffable = Buffable()
# Building a buff with the builder
buff = BuffBuilder().modify(
"+", 5, Attributes.ATK).whenever(FartEvent).build()
add_buff(buffable, buff, CompleteBuildingEvent())
fart_event = FartEvent(buffable)
event_result = call_event(fart_event)
modifications = event_result.added_modifications
# Check if the event returns the correct modifications that happened
assert len(modifications) == 1
assert modifications[0].buff_id == buff.buff_id
assert modifications[0].source_event == fart_event
assert modifications[0].modifier.operator == "+"
assert modifications[0].modifier.value == 5
assert modifications[0].modifier.attribute_id == Attributes.ATK
def test_removing_propagation_source(self):
player = Player()
player.attributes[Attributes.ATK] = 200
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
# 50% of equipment attack goes to player DEF
equipment_buff_2 = BuffBuilder().modify("%", 0.5, Attributes.ATK) \
.propagates_to_attribute(Attributes.DEF).propagates_to(Player).build()
add_buff(equipment, equipment_buff_2, CompleteBuildingEvent())
# 50% of the EQUIPMENT ATK (100) should have gone to player DEF
assert player.attributes[
Attributes.DEF] == equipment.attributes[Attributes.ATK] * 0.5
# If we remove the propagation source, the propagation targets attributes needs to be updated
remove_buff(equipment, equipment_buff_2.buff_id)
assert player.attributes[Attributes.DEF] == 0
def test_propagation_also_modifyng_source(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle = Castle()
castle.players.append(player)
# A global castle buff of +50 ATK but also affects the castle
castle_buff = BuffBuilder().modify("+", 50, Attributes.ATK)\
.propagates_to(Player, Castle).build()
add_buff(castle, castle_buff, CompleteBuildingEvent())
# The buff should be active in the owner and target
assert castle_buff.buff_id in castle.active_buffs
assert castle_buff.buff_id in player.active_buffs
# Since castle buffs are propagated to the players in that castle, the player should have got +50% ATK
assert player.attributes[Attributes.ATK] == 150
# However even tho the castle has this buff as active, since its not a target it did not change ATK
assert castle.attributes[Attributes.ATK] == 50
def test_propagation_debug_tracking(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle = Castle()
castle.players.append(player)
# A global castle buff of 50% ATK
castle_buff = BuffBuilder().modify(
"%", 0.5, Attributes.ATK).propagates_to(Player).build()
event_result = add_buff(castle, castle_buff, CompleteBuildingEvent())
# The event result should let us know about the propagation
propagated_modifications = event_result.propagated_modifications
added_modifications_on_propagation = propagated_modifications[
player.id][0].added_modifications[0]
# We also have the history in the attribute modification history
attribute_history_modification = list(
player.attributes.get_data(Attributes.ATK).history.values())[0]
for modification in [
added_modifications_on_propagation,
attribute_history_modification
]:
# Asserting this stored the modifier correctly
assert modification.modifier.value == 0.5
assert modification.modifier.operator == "%"
assert modification.modifier.attribute_id == Attributes.ATK
# Asserting the buff chain, we added a buff, caused a propagation to add a buff in another buffable
event_chain = modification.source_event.get_event_chain()
assert isinstance(event_chain[0], AddBuffEvent)
assert isinstance(event_chain[1], BuffPropagatedEvent)
assert event_chain[1].source_buffable == castle
assert isinstance(event_chain[2], AddBuffEvent)
assert isinstance(event_chain[3], CompleteBuildingEvent)
def test_inactivating_propagated_buff_stack_from_source(self):
player = Player()
castle = Castle()
castle.players.append(player)
# A global castle buff of +50 ATK
castle_buff = BuffBuilder().modify("+", 50, Attributes.ATK).propagates_to(Player).stacks(3).build()
# Add thre stacks of the buff
add_buff(castle, castle_buff, CompleteBuildingEvent())
add_buff(castle, castle_buff, CompleteBuildingEvent())
add_buff(castle, castle_buff, CompleteBuildingEvent())
assert player.attributes[Attributes.ATK] == 150
# Stacks are added both to source as well to propagation target
assert player.active_buffs[castle_buff.buff_id].stack == 3
assert castle.active_buffs[castle_buff.buff_id].stack == 3
inactivate_buff(castle, castle_buff, None)
assert player.attributes[Attributes.ATK] == 100
assert castle.active_buffs[castle_buff.buff_id].stack == 2
assert player.active_buffs[castle_buff.buff_id].stack == 2
def test_pulling_propagated_buffs(self):
player = Player()
player.attributes[Attributes.ATK] = 100
castle_buff = BuffBuilder().modify(
"%", 0.5, Attributes.ATK).propagates_to(Player).build()
castle = Castle()
castle.players.append(player)
add_buff(castle, castle_buff, CompleteBuildingEvent())
# First player should be updated
assert player.attributes[Attributes.ATK] == 150
# Adding another player
player2 = Player()
player2.attributes[Attributes.ATK] = 100
# We can enforce a propagation to happen in case we just created a new buffable and we have "global buffs"
pull_propagated_buffs(castle, player2, CompleteBuildingEvent())
# Player should have pulled the propagation from his castle
assert player2.attributes[Attributes.ATK] == 150
def test_propagating_a_derivation_buff(self):
player = Player()
player.attributes[Attributes.ATK] = 50
player.attributes[Attributes.DEF] = 75
equipment = Equipment()
equipment.attributes[Attributes.ATK] = 100
equipment.owner = player
castle = Castle()
castle.players = [player]
# 50% of player def becomes player HP
add_buff(equipment,
BuffBuilder(1).modify("%", 0.5, Attributes.DEF).to_attribute(Attributes.HP) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert player.attributes[Attributes.HP] == 75 / 2
# 50% of equipment attack goes to player DEF
add_buff(equipment,
BuffBuilder(2).modify("%", 0.5, Attributes.ATK).propagates_to_attribute(Attributes.DEF)\
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert player.attributes[Attributes.DEF] == 125
assert player.attributes[Attributes.HP] == 125 / 2
# 25% of castle DEF becomes player DEF
add_buff(castle,
BuffBuilder(3).modify("%", 0.5, Attributes.DEF).propagates_to_attribute(Attributes.DEF) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
assert castle.attributes[Attributes.DEF] == 0
assert player.attributes[Attributes.DEF] == 125
assert player.attributes[Attributes.HP] == 125 / 2
# Castle buff of +80 DEF, 50% should derivate to player
add_buff(castle,
BuffBuilder(4).modify("+", 80, Attributes.DEF).build(),
CompleteBuildingEvent())
assert castle.attributes[Attributes.DEF] == 80
assert player.attributes[Attributes.DEF] == 125 + 40
assert player.attributes[Attributes.HP] == (125 + 40) / 2
# Another Castle buff of +80 DEF, 50% should derivate to player
add_buff(castle,
BuffBuilder(5).modify("+", 80, Attributes.DEF).build(),
CompleteBuildingEvent())
assert castle.attributes[Attributes.DEF] == 80 + 80
assert player.attributes[Attributes.DEF] == 125 + 40 + 40
assert player.attributes[Attributes.HP] == (125 + 40 + 40) / 2
# Just bumping player + 100 ATK. To remember:
add_buff(equipment,
BuffBuilder(6).modify("+", 100, Attributes.ATK).build(),
CompleteBuildingEvent())
assert castle.attributes[Attributes.DEF] == 80 + 80
assert player.attributes[Attributes.DEF] == 125 + 40 + 40 + 50
assert player.attributes[Attributes.HP] == (125 + 40 + 40 + 50) / 2
# 100% of castle DEF goes to player HP
add_buff(
castle,
BuffBuilder(7).modify(
"%", 1, Attributes.DEF).propagates_to_attribute(
Attributes.HP).propagates_to(Player).build(),
CompleteBuildingEvent())
assert castle.attributes[Attributes.DEF] == 80 + 80
assert player.attributes[Attributes.DEF] == 125 + 40 + 40 + 50
assert player.attributes[Attributes.HP] == (
(125 + 40 + 40 + 50) / 2) + castle.attributes[Attributes.DEF]
# 50% of HP to CRIT_DAMAGE on player
add_buff(
player,
BuffBuilder(8).modify("%", 0.5, Attributes.HP).to_attribute(
Attributes.CRIT_DAMAGE).build(), CompleteBuildingEvent())
assert player.attributes[Attributes.HP] == (
(125 + 40 + 40 + 50) / 2) + castle.attributes[Attributes.DEF]
assert player.attributes[
Attributes.CRIT_DAMAGE] == player.attributes[Attributes.HP] / 2
assert castle.attributes[Attributes.DEF] == 80 + 80
assert player.attributes[Attributes.DEF] == 125 + 40 + 40 + 50
with TrackStack() as track:
# 50% of castle def to player def
add_buff(castle,
BuffBuilder(9).modify("%", 0.5, Attributes.DEF).propagates_to_attribute(Attributes.DEF) \
.propagates_to(Player).build(),
CompleteBuildingEvent()
)
# Printing the stack, this buff should trigger a 4 step derivation chain
track.print_stack()
assert player.attributes[Attributes.DEF] == 125 + 40 + 40 + 50 + 80
assert player.attributes[Attributes.HP] == (
(125 + 40 + 40 + 50 + 80) /
2) + castle.attributes[Attributes.DEF]
assert player.attributes[
Attributes.CRIT_DAMAGE] == player.attributes[Attributes.HP] / 2
assert castle.attributes[Attributes.DEF] == 80 + 80
def test_reuse_conditions_with_abstraction(self):
# Lets say our game has an economy, of multiple types of coins.
example_coin_types = ["gold", "silver", "copper"]
class EconomyEvent(BuffEvent):
def __init__(self, buffable, coin_type_changed, coin_amount):
super(EconomyEvent, self).__init__(buffable)
self.coin_type_changed = coin_type_changed
self.coin_amount = coin_amount
# The player can get coins by mining for instance
class PlayerMineCoinsEvent(EconomyEvent):
def __init__(self, buffable, coin_type_changed, coin_amount):
super(PlayerMineCoinsEvent,
self).__init__(buffable, coin_type_changed, coin_amount)
# The player can also get coins by looting enemies
class PlayerLootEnemyEvent(EconomyEvent):
def __init__(self, buffable, coin_type_changed, coin_amount):
super(PlayerLootEnemyEvent,
self).__init__(buffable, coin_type_changed, coin_amount)
# Now this condition works for any economy event generically
@buffspecs.AddConditionFor([EconomyEvent])
def is_coin_type(event, *coin_types):
return event.coin_type_changed in coin_types
# Now we create a buff that
buffable = Buffable()
# Making a buff that gives player DEF when if he mines a gold coin
bdr = BuffBuilder().modify("+", 5, Attributes.DEF).whenever(
PlayerMineCoinsEvent).just_if("is_coin_type gold")
bonus_mine_gold_buff = bdr.build()
# Making a buff that gives player ATK if he loots silver or copper coins
bdr = BuffBuilder().modify(
"+", 5, Attributes.ATK
).whenever(PlayerLootEnemyEvent).just_if(
"is_coin_type copper silver" # Multiple parameters in the condition
)
bonus_loot_copper_silver_buff = bdr.build()
# Add the buffs
add_buff(buffable, bonus_loot_copper_silver_buff,
CompleteBuildingEvent())
add_buff(buffable, bonus_mine_gold_buff, CompleteBuildingEvent())
# Now we mine some silver
call_event(PlayerMineCoinsEvent(buffable, "silver", 10))
# No buffs should be applied as no conditions matched
assert len(buffable.active_buffs) == 0
# Now he mines gold, should activate the buff cause the condition matched
call_event(PlayerMineCoinsEvent(buffable, "gold", 10))
assert bonus_mine_gold_buff.buff_id in buffable.active_buffs
# Now he will loot gold, condition should not match
call_event(PlayerLootEnemyEvent(buffable, "gold", 10))
assert bonus_loot_copper_silver_buff.buff_id not in buffable.active_buffs
# Now he finally loots silver or copper (in this case, silver) and the buff should apply
call_event(PlayerLootEnemyEvent(buffable, "silver", 10))
assert bonus_loot_copper_silver_buff.buff_id in buffable.active_buffs
