1294 lines
53 KiB
Python
1294 lines
53 KiB
Python
"""Use constraint programming to devise the optimal skeleton at the Bone Market in Fallen London."""
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__all__ = ['Adjustment', 'Appendage', 'Buyer', 'Declaration', 'DiplomatFascination', 'Embellishment', 'Fluctuation', 'OccasionalBuyer', 'Skull', 'Solve', 'Torso']
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__author__ = "Jeremy Saklad"
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from functools import partialmethod
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from itertools import chain, repeat
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from os import cpu_count
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from ortools.sat.python import cp_model
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from .data.adjustments import Adjustment
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from .data.appendages import Appendage
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from .data.buyers import Buyer
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from .data.costs import Cost
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from .data.declarations import Declaration
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from .data.diplomat_fascinations import DiplomatFascination
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from .data.embellishments import Embellishment
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from .data.fluctuations import Fluctuation
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from .data.occasional_buyers import OccasionalBuyer
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from .data.skulls import Skull
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from .data.torsos import Torso
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from .objects.bone_market_model import BoneMarketModel
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# This multiplier is applied to the profit margin to avoid losing precision due to rounding.
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PROFIT_MARGIN_MULTIPLIER = 100
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# This is the highest number of attribute to calculate fractional exponents for.
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MAXIMUM_ATTRIBUTE = 100
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# This is a constant used to calculate difficulty checks. You almost certainly do not need to change this.
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DIFFICULTY_SCALER = 0.6
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def Solve(shadowy_level, bone_market_fluctuations = None, zoological_mania = None, occasional_buyer = None, diplomat_fascination = None, desired_buyers = [], maximum_cost = cp_model.INT32_MAX, maximum_exhaustion = cp_model.INT32_MAX, time_limit = float('inf'), workers = cpu_count(), blacklist = [], stdscr = None):
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model = BoneMarketModel()
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actions = {}
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# Torso
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for torso in Torso:
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actions[torso] = model.NewBoolVar(torso.value.name)
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# Skull
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for skull in Skull:
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actions[skull] = model.NewIntVar(skull.value.name, lb = 0)
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# Appendage
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for appendage in Appendage:
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if appendage == Appendage.SKIP_TAILS:
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actions[appendage] = model.NewBoolVar(appendage.value.name)
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else:
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actions[appendage] = model.NewIntVar(appendage.value.name, lb = 0)
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# Adjustment
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for adjustment in Adjustment:
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actions[adjustment] = model.NewIntVar(adjustment.value.name, lb = 0)
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# Declaration
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for declaration in Declaration:
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actions[declaration] = model.NewBoolVar(declaration.value.name)
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# Embellishment
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for embellishment in Embellishment:
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actions[embellishment] = model.NewIntVar(embellishment.value.name, lb = 0)
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# Buyer
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for buyer in Buyer:
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actions[buyer] = model.NewBoolVar(buyer.value.name)
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# Mark unavailable buyers
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model.AddAssumptions([
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actions[buyer].Not()
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for unavailable_buyer in OccasionalBuyer if unavailable_buyer != occasional_buyer
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for buyer in unavailable_buyer.value if buyer not in desired_buyers
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])
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model.AddAssumptions([
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actions[outmoded_fascination.value].Not()
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for outmoded_fascination in DiplomatFascination if outmoded_fascination != diplomat_fascination and outmoded_fascination.value not in desired_buyers
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])
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# Restrict to desired buyers
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if desired_buyers:
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model.Add(cp_model.LinearExpr.Sum([actions[desired_buyer] for desired_buyer in desired_buyers]) == 1)
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# Blacklist
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model.Add(cp_model.LinearExpr.Sum([actions[forbidden] for forbidden in blacklist]) == 0)
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# One torso
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model.Add(cp_model.LinearExpr.Sum([value for (key, value) in actions.items() if isinstance(key, Torso)]) == 1)
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# One declaration
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model.Add(cp_model.LinearExpr.Sum([value for (key, value) in actions.items() if isinstance(key, Declaration)]) == 1)
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# One buyer
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model.Add(cp_model.LinearExpr.Sum([value for (key, value) in actions.items() if isinstance(key, Buyer)]) == 1)
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# Value calculation
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value = model.NewIntVar('value', lb = 0)
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base_value = model.NewIntVar('base value', lb = 0)
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model.Add(base_value == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.value for action in actions.keys()]))
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# Calculate value from Vake skulls
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# This is a partial sum formula.
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vake_skull_value = model.NewIntVar('vake skull value')
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vake_skulls = actions[Skull.VAKE_SKULL]
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vake_skulls_squared = model.NewIntVar('vake skulls squared', lb = 0)
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model.AddMultiplicationEquality(vake_skulls_squared, (vake_skulls, vake_skulls))
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model.Add(vake_skull_value == -250 * vake_skulls_squared + 6750 * vake_skulls)
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del vake_skulls, vake_skulls_squared
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model.Add(value == base_value + vake_skull_value)
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del base_value, vake_skull_value
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# Zoological Mania
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zoological_mania_bonus = model.NewIntVar('zoological mania bonus', lb = 0)
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if zoological_mania:
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multiplier = 15 if zoological_mania in [Declaration.FISH, Declaration.INSECT, Declaration.SPIDER] else 10
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potential_zoological_mania_bonus = model.NewIntVar('potential zoological mania bonus', lb = 0)
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multiplied_value = model.NewIntVar('multiplied value', lb = 0)
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model.Add(multiplied_value == multiplier*value)
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model.AddDivisionEquality(potential_zoological_mania_bonus, multiplied_value, 100)
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model.Add(zoological_mania_bonus == potential_zoological_mania_bonus).OnlyEnforceIf(actions[zoological_mania])
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model.Add(zoological_mania_bonus == 0).OnlyEnforceIf(actions[zoological_mania].Not())
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del multiplier, potential_zoological_mania_bonus, multiplied_value
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else:
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model.Add(zoological_mania_bonus == 0)
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# Torso Style calculation
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torso_style = model.NewIntVarFromDomain(cp_model.Domain.FromValues([torso.value.torso_style for torso in Torso]), 'torso style')
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for torso, torso_variable in {key: value for (key, value) in actions.items() if isinstance(key, Torso)}.items():
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model.Add(torso_style == torso.value.torso_style).OnlyEnforceIf(torso_variable)
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# Skulls calculation
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skulls = model.NewIntVar('skulls', lb = 0)
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model.Add(skulls == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.skulls for action in actions.keys()]))
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# Arms calculation
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arms = model.NewIntVar('arms', lb = 0)
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model.Add(arms == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.arms for action in actions.keys()]))
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# Legs calculation
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legs = model.NewIntVar('legs', lb = 0)
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model.Add(legs == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.legs for action in actions.keys()]))
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# Tails calculation
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tails = model.NewIntVar('tails', lb = 0)
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model.Add(tails == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.tails for action in actions.keys()]))
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# Wings calculation
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wings = model.NewIntVar('wings', lb = 0)
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model.Add(wings == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.wings for action in actions.keys()]))
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# Fins calculation
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fins = model.NewIntVar('fins', lb = 0)
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model.Add(fins == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.fins for action in actions.keys()]))
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# Segments calculation
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segments = model.NewIntVar('segments', lb = 0)
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model.Add(segments == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.segments for action in actions.keys()]))
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# Tentacles calculation
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tentacles = model.NewIntVar('tentacles', lb = 0)
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model.Add(tentacles == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.tentacles for action in actions.keys()]))
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# Amalgamy calculation
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amalgamy = model.NewIntVar('amalgamy', lb = 0)
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unbound_amalgamy = model.NewIntVar('unbound amalgamy')
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model.Add(unbound_amalgamy == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.amalgamy for action in actions.keys()]))
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model.AddMaxEquality(amalgamy, (unbound_amalgamy, 0))
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del unbound_amalgamy
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# Antiquity calculation
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antiquity = model.NewIntVar('antiquity', lb = 0)
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unbound_antiquity = model.NewIntVar('unbound antiquity')
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model.Add(unbound_antiquity == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.antiquity for action in actions.keys()]))
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model.AddMaxEquality(antiquity, (unbound_antiquity, 0))
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del unbound_antiquity
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# Menace calculation
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menace = model.NewIntVar('menace', lb = 0)
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unbound_menace = model.NewIntVar('unbound menace')
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constant_base_menace = model.NewIntVar('constant base menace')
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model.Add(constant_base_menace == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.menace for action in actions.keys()]))
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# Calculate menace from Vake skulls
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vake_skull_bonus_menace = model.NewIntVarFromDomain(cp_model.Domain.FromValues([0, 2, 3]), 'vake skull bonus menace')
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vake_skulls_times_two = model.NewIntVar('vake skulls times two', lb = 0)
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model.AddMultiplicationEquality(vake_skulls_times_two, (2, actions[Skull.VAKE_SKULL]))
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model.AddMinEquality(vake_skull_bonus_menace, [vake_skulls_times_two, 3])
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del vake_skulls_times_two
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model.Add(unbound_menace == constant_base_menace + vake_skull_bonus_menace)
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model.AddMaxEquality(menace, (unbound_menace, 0))
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del unbound_menace, constant_base_menace, vake_skull_bonus_menace
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# Implausibility calculation
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implausibility = model.NewIntVar('implausibility')
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constant_base_implausibility = model.NewIntVar('implausibility')
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model.Add(constant_base_implausibility == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.implausibility for action in actions.keys()]))
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# Calculate implausibility from Vake skulls
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# This is a partial sum formula.
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vake_skull_implausibility = model.NewIntVar('vake skull implausibility', lb = 0)
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vake_skull_implausibility_numerator = model.NewIntVar('vake skull implausibility numerator', lb = 0)
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vake_skulls = actions[Skull.VAKE_SKULL]
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vake_skull_implausibility_numerator_second_term = model.NewIntVar('vake skull implausibility numerator second term', lb = 0)
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model.AddMultiplicationEquality(vake_skull_implausibility_numerator_second_term, (vake_skulls, vake_skulls))
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vake_skull_implausibility_numerator_third_term = model.NewIntVar('vake skull implausibility numerator third term', lb = 0, ub = 1)
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model.AddModuloEquality(vake_skull_implausibility_numerator_third_term, vake_skulls, 2)
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model.Add(vake_skull_implausibility_numerator == -2 * vake_skulls + vake_skull_implausibility_numerator_second_term + vake_skull_implausibility_numerator_third_term)
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del vake_skulls, vake_skull_implausibility_numerator_second_term, vake_skull_implausibility_numerator_third_term
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model.AddDivisionEquality(vake_skull_implausibility, vake_skull_implausibility_numerator, 4)
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del vake_skull_implausibility_numerator
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model.Add(implausibility == constant_base_implausibility + vake_skull_implausibility)
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del constant_base_implausibility, vake_skull_implausibility
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# Counter-church calculation
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# Calculate amount of Counter-church from Holy Relics of the Thigh of Saint Fiacre
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holy_relic = actions[Appendage.FIACRE_THIGH]
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torso_style_divided_by_ten = model.NewIntVar('torso style divided by ten', lb = 0)
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model.AddDivisionEquality(torso_style_divided_by_ten, torso_style, 10)
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holy_relic_counter_church = model.NewIntVar('holy relic counter-church', lb = 0)
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model.AddMultiplicationEquality(holy_relic_counter_church, (holy_relic, torso_style_divided_by_ten))
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counter_church = model.NewIntVar('counter-church', lb = 0)
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model.Add(counter_church == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.counter_church for action in actions.keys()]) + holy_relic_counter_church)
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del holy_relic, torso_style_divided_by_ten, holy_relic_counter_church
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# Exhaustion calculation
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exhaustion = model.NewIntVar('exhaustion', lb = 0, ub = maximum_exhaustion)
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# Exhaustion added by certain buyers
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added_exhaustion = model.NewIntVar('added exhaustion', lb = 0, ub = maximum_exhaustion)
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model.Add(exhaustion == cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.exhaustion for action in actions.keys()]) + added_exhaustion)
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# Profit intermediate variables
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primary_revenue = model.NewIntVar('primary revenue', lb = 0)
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secondary_revenue = model.NewIntVar('secondary revenue', lb = 0)
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total_revenue = model.NewIntVar('total revenue', lb = 0)
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model.Add(total_revenue == cp_model.LinearExpr.Sum([primary_revenue, secondary_revenue]))
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# Cost
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# Calculate value of actions needed to sell the skeleton.
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difficulty_level = model.NewIntVar('difficulty level')
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non_zero_difficulty_level = model.NewIntVar('non-zero difficulty level', lb = 1)
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model.AddMaxEquality(non_zero_difficulty_level, [difficulty_level, 1])
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sale_actions_times_action_value = model.NewIntVar('sale actions times action value', lb = 0)
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model.AddDivisionEquality(sale_actions_times_action_value, model.NewConstant(round(DIFFICULTY_SCALER*shadowy_level*Cost.ACTION.value)), non_zero_difficulty_level)
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abstract_sale_cost = model.NewIntVar('abstract sale cost', lb = 0)
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model.AddDivisionEquality(abstract_sale_cost, Cost.ACTION.value**2, sale_actions_times_action_value)
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sale_cost = model.NewIntVar('sale cost', lb = 0)
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model.AddMaxEquality(sale_cost, [abstract_sale_cost, Cost.ACTION.value])
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del non_zero_difficulty_level, sale_actions_times_action_value, abstract_sale_cost
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# Calculate cost of adding joints
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# This is a partial sum formula.
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add_joints_amber_cost = model.NewIntVar('add joints amber cost', lb = 0)
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add_joints = actions[Appendage.ADD_JOINTS]
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# Joints may be added once the torso and skulls are chosen, so the sum of their properties are the starting point.
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base_joints = model.NewIntVar('base joints', lb = 0)
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model.Add(base_joints == cp_model.LinearExpr.WeightedSum([value for (key, value) in actions.items() if isinstance(key, (Torso, Skull))], [action.value.limbs_needed + action.value.arms + action.value.legs + action.value.wings + action.value.fins + action.value.tentacles for action in chain(Torso, Skull)]))
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add_joints_amber_cost_multiple = model.NewIntVar('add joints amber cost multiple', lb = 0)
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add_joints_amber_cost_multiple_first_term = model.NewIntVar('add joints amber cost multiple first term', lb = 0)
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model.AddMultiplicationEquality(add_joints_amber_cost_multiple_first_term, (25, base_joints, base_joints, add_joints))
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add_joints_amber_cost_multiple_second_term = model.NewIntVar('add joints amber cost multiple second term', lb = 0)
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model.AddMultiplicationEquality(add_joints_amber_cost_multiple_second_term, (100, base_joints, add_joints, add_joints))
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add_joints_amber_cost_multiple_third_term = model.NewIntVar('add joints amber cost multiple third term', lb = 0)
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model.AddMultiplicationEquality(add_joints_amber_cost_multiple_third_term, (100, base_joints, add_joints))
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add_joints_amber_cost_multiple_fourth_term = model.NewIntVar('add joints amber cost multiple fourth term', lb = 0)
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add_joints_amber_cost_multiple_fourth_term_numerator = model.NewIntVar('add joints amber cost multiple fourth term numerator', lb = 0)
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add_joints_amber_cost_multiple_fourth_term_numerator_first_term = model.NewIntVar('add joints amber cost multiple fourth term numerator first term', lb = 0)
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model.AddMultiplicationEquality(add_joints_amber_cost_multiple_fourth_term_numerator_first_term, (400, add_joints, add_joints, add_joints))
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model.Add(add_joints_amber_cost_multiple_fourth_term_numerator == add_joints_amber_cost_multiple_fourth_term_numerator_first_term + 200*add_joints)
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model.AddDivisionEquality(add_joints_amber_cost_multiple_fourth_term, add_joints_amber_cost_multiple_fourth_term_numerator, 3)
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del add_joints_amber_cost_multiple_fourth_term_numerator, add_joints_amber_cost_multiple_fourth_term_numerator_first_term
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add_joints_amber_cost_multiple_fifth_term = model.NewIntVar('add joints amber cost multiple fifth term', lb = 0)
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model.AddMultiplicationEquality(add_joints_amber_cost_multiple_fifth_term, (200, add_joints, add_joints))
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model.Add(add_joints_amber_cost_multiple == add_joints_amber_cost_multiple_first_term + add_joints_amber_cost_multiple_second_term - add_joints_amber_cost_multiple_third_term + add_joints_amber_cost_multiple_fourth_term - add_joints_amber_cost_multiple_fifth_term)
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del add_joints_amber_cost_multiple_first_term, add_joints_amber_cost_multiple_second_term, add_joints_amber_cost_multiple_third_term, add_joints_amber_cost_multiple_fourth_term, add_joints_amber_cost_multiple_fifth_term
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model.AddMultiplicationEquality(add_joints_amber_cost, (add_joints_amber_cost_multiple, Cost.WARM_AMBER.value))
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del add_joints, add_joints_amber_cost_multiple
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# Calculate cost of adding segments.
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# This is a partial sum formula.
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add_segments_brass_cost = model.NewIntVar('add segments brass cost', lb = 0)
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add_segments = actions[Appendage.SEGMENTED_RIBCAGE]
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# Additional segments may be added once the torso and skulls are chosen, so the sum of their properties are the starting point.
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base_segments = model.NewIntVar('base segments', lb = 0)
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model.Add(base_segments == cp_model.LinearExpr.WeightedSum([value for (key, value) in actions.items() if isinstance(key, (Torso, Skull))], [action.value.segments for action in chain(Torso, Skull)]))
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first_term, *_ = model.NewIntermediateIntVar(
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partialmethod(BoneMarketModel.AddMultiplicationEquality,
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variables=(
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25,
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*repeat(add_segments, 4),
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)
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),
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'add segments brass cost multiple first term'
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)
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second_term, *_ = model.NewIntermediateIntVar(
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partialmethod(BoneMarketModel.AddMultiplicationEquality,
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variables=(
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100,
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*repeat(add_segments, 3),
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base_segments,
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)
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),
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'add segments brass cost multiple second term'
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)
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third_term, *_ = model.NewIntermediateIntVar(
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partialmethod(BoneMarketModel.AddMultiplicationEquality,
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variables=(
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50,
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*repeat(add_segments, 3),
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)
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),
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'add segments brass cost multiple third term'
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)
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fourth_term, *_ = model.NewIntermediateIntVar(
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partialmethod(BoneMarketModel.AddMultiplicationEquality,
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variables=(
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150,
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*repeat(add_segments, 2),
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*repeat(base_segments, 2),
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)
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),
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'add segments brass cost multiple fourth term'
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)
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|
|
fifth_term, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(
|
|
150,
|
|
*repeat(add_segments, 2),
|
|
base_segments,
|
|
)
|
|
),
|
|
'add segments brass cost multiple fifth term'
|
|
)
|
|
|
|
sixth_term, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(
|
|
25,
|
|
*repeat(add_segments, 2),
|
|
)
|
|
),
|
|
'add segments brass cost multiple sixth term'
|
|
)
|
|
|
|
seventh_term, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(
|
|
100,
|
|
add_segments,
|
|
*repeat(base_segments, 3),
|
|
)
|
|
),
|
|
'add segments brass cost multiple seventh term'
|
|
)
|
|
|
|
eighth_term, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(
|
|
150,
|
|
add_segments,
|
|
*repeat(base_segments, 2),
|
|
)
|
|
),
|
|
'add segments brass cost multiple eighth term'
|
|
)
|
|
|
|
ninth_term, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(
|
|
50,
|
|
add_segments,
|
|
base_segments,
|
|
)
|
|
),
|
|
'add segments brass cost multiple ninth term'
|
|
)
|
|
|
|
add_segments_brass_cost_multiple, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=first_term + second_term + third_term + fourth_term + fifth_term + sixth_term + seventh_term + eighth_term + ninth_term,
|
|
denom=2
|
|
),
|
|
'add segments brass cost multiple'
|
|
)
|
|
|
|
del first_term, second_term, third_term, fourth_term, fifth_term, sixth_term, seventh_term, eighth_term, ninth_term
|
|
|
|
add_segments_brass_cost, *_ = model.NewIntermediateIntVar(
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(
|
|
add_segments_brass_cost_multiple,
|
|
Cost.NEVERCOLD_BRASS.value,
|
|
)
|
|
),
|
|
'add segments brass cost'
|
|
)
|
|
|
|
del add_segments, base_segments, add_segments_brass_cost_multiple
|
|
|
|
|
|
cost = model.NewIntVar('cost', lb = 0, ub = maximum_cost)
|
|
model.Add(cost == cp_model.LinearExpr.WeightedSum(actions.values(), [int(action.value.cost) for action in actions.keys()]) + add_joints_amber_cost + add_segments_brass_cost + sale_cost)
|
|
|
|
del sale_cost, add_joints_amber_cost, add_segments_brass_cost
|
|
|
|
|
|
# Type of skeleton
|
|
skeleton_in_progress = model.NewIntVar('skeleton in progress', lb = 0)
|
|
|
|
# Chimera
|
|
model.Add(skeleton_in_progress == 100) \
|
|
.OnlyEnforceIf(actions[Declaration.CHIMERA])
|
|
# Humanoid
|
|
model.Add(skeleton_in_progress == 110) \
|
|
.OnlyEnforceIf(actions[Declaration.HUMANOID]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity == 0))
|
|
# Ancient Humanoid (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 111) \
|
|
.OnlyEnforceIf(actions[Declaration.HUMANOID]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (1, 5))))
|
|
# Neanderthal
|
|
model.Add(skeleton_in_progress == 112) \
|
|
.OnlyEnforceIf(actions[Declaration.HUMANOID]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 6))
|
|
# Ape (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 120) \
|
|
.OnlyEnforceIf(actions[Declaration.APE]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity <= 1))
|
|
# Primordial Ape (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 121) \
|
|
.OnlyEnforceIf(actions[Declaration.APE]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 2))
|
|
# Monkey
|
|
model.Add(skeleton_in_progress == 125) \
|
|
.OnlyEnforceIf(actions[Declaration.MONKEY]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity == 0))
|
|
# Catarrhine Monkey (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 126) \
|
|
.OnlyEnforceIf(actions[Declaration.MONKEY]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (1, 8))))
|
|
# Catarrhine Monkey
|
|
model.Add(skeleton_in_progress == 128) \
|
|
.OnlyEnforceIf(actions[Declaration.MONKEY]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 9))
|
|
# Crocodile
|
|
model.Add(skeleton_in_progress == 160) \
|
|
.OnlyEnforceIf(actions[Declaration.REPTILE]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity <= 1))
|
|
# Dinosaur
|
|
model.Add(skeleton_in_progress == 161) \
|
|
.OnlyEnforceIf(actions[Declaration.REPTILE]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (2, 4))))
|
|
# Mesosaur (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 162) \
|
|
.OnlyEnforceIf(actions[Declaration.REPTILE]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 5))
|
|
# Toad
|
|
model.Add(skeleton_in_progress == 170) \
|
|
.OnlyEnforceIf(actions[Declaration.AMPHIBIAN]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity <= 1))
|
|
# Primordial Amphibian
|
|
model.Add(skeleton_in_progress == 171) \
|
|
.OnlyEnforceIf(actions[Declaration.AMPHIBIAN]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (2, 4))))
|
|
# Temnospondyl
|
|
model.Add(skeleton_in_progress == 172) \
|
|
.OnlyEnforceIf(actions[Declaration.AMPHIBIAN]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 5))
|
|
# Owl
|
|
model.Add(skeleton_in_progress == 180) \
|
|
.OnlyEnforceIf(actions[Declaration.BIRD]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity <= 1))
|
|
# Archaeopteryx
|
|
model.Add(skeleton_in_progress == 181) \
|
|
.OnlyEnforceIf(actions[Declaration.BIRD]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (2, 4))))
|
|
# Ornithomimosaur (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 182) \
|
|
.OnlyEnforceIf(actions[Declaration.BIRD]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 5))
|
|
# Lamprey
|
|
model.Add(skeleton_in_progress == 190) \
|
|
.OnlyEnforceIf(actions[Declaration.FISH]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity == 0))
|
|
# Coelacanth (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 191) \
|
|
.OnlyEnforceIf(actions[Declaration.FISH]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 1))
|
|
# Spider (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 200) \
|
|
.OnlyEnforceIf(actions[Declaration.SPIDER]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity <= 1))
|
|
# Primordial Orb-Weaver (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 201) \
|
|
.OnlyEnforceIf(actions[Declaration.SPIDER]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (2, 7))))
|
|
# Trigonotarbid
|
|
model.Add(skeleton_in_progress == 203) \
|
|
.OnlyEnforceIf(actions[Declaration.SPIDER]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 8))
|
|
# Beetle (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 210) \
|
|
.OnlyEnforceIf(actions[Declaration.INSECT]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity <= 1))
|
|
# Primordial Beetle (UNCERTAIN)
|
|
model.Add(skeleton_in_progress == 211) \
|
|
.OnlyEnforceIf(actions[Declaration.INSECT]) \
|
|
.OnlyEnforceIf(model.BoolExpression(cp_model.BoundedLinearExpression(antiquity, (2, 6))))
|
|
# Rhyniognatha
|
|
model.Add(skeleton_in_progress == 212) \
|
|
.OnlyEnforceIf(actions[Declaration.INSECT]) \
|
|
.OnlyEnforceIf(model.BoolExpression(antiquity >= 7))
|
|
# Curator
|
|
model.Add(skeleton_in_progress == 300) \
|
|
.OnlyEnforceIf(actions[Declaration.CURATOR])
|
|
|
|
|
|
# Skull requirements
|
|
|
|
model.Add(torso_style == 110) \
|
|
.OnlyEnforceIf(model.BoolExpression(actions[Skull.SEGMENTED_RIBCAGE] > 0))
|
|
|
|
|
|
# Appendage requirements
|
|
|
|
model.AddIf(model.BoolExpression(actions[Appendage.SEGMENTED_RIBCAGE] > 0),
|
|
torso_style == 110,
|
|
cp_model.LinearExpr.WeightedSum([value for (key, value) in actions.items() if isinstance(key, (Torso, Skull))], [action.value.tails_needed for action in chain(Torso, Skull)]) >= 1,
|
|
)
|
|
|
|
|
|
# Declaration requirements
|
|
|
|
model.AddIf(actions[Declaration.HUMANOID],
|
|
(part == 0 for part in (tails, fins, wings)),
|
|
skulls == 1,
|
|
(part == 2 for part in (legs, arms)),
|
|
cp_model.BoundedLinearExpression(torso_style, (10, 20)),
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.APE],
|
|
(part == 0 for part in (legs, tails, fins, wings)),
|
|
skulls == 1,
|
|
arms == 4,
|
|
cp_model.BoundedLinearExpression(torso_style, (10, 20)),
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.MONKEY],
|
|
(part == 0 for part in (legs, fins, wings)),
|
|
(part == 1 for part in (skulls, tails)),
|
|
arms == 4,
|
|
cp_model.BoundedLinearExpression(torso_style, (10, 20)),
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.BIRD],
|
|
(part == 0 for part in (arms, fins)),
|
|
tails < 2,
|
|
(part == 2 for part in (legs, wings)),
|
|
torso_style >= 20,
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.CURATOR],
|
|
(part == 0 for part in (fins, tails)),
|
|
skulls == 1,
|
|
(part == 2 for part in (arms, legs, wings)),
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.REPTILE],
|
|
(part == 0 for part in (fins, wings, arms)),
|
|
(part == 1 for part in (tails, skulls)),
|
|
legs < 5,
|
|
torso_style >= 20,
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.AMPHIBIAN],
|
|
(part == 0 for part in (tails, fins, wings, arms)),
|
|
skulls == 1,
|
|
legs == 4,
|
|
torso_style >= 20,
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.FISH],
|
|
(part == 0 for part in (arms, legs, wings)),
|
|
tails <= 1,
|
|
skulls == 1,
|
|
fins >= 2,
|
|
torso_style >= 20,
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.INSECT],
|
|
(part == 0 for part in (arms, fins, tails)),
|
|
skulls == 1,
|
|
wings < 5,
|
|
legs == 6,
|
|
torso_style >= 20,
|
|
)
|
|
|
|
model.AddIf(actions[Declaration.SPIDER],
|
|
(part == 0 for part in (skulls, arms, wings, fins)),
|
|
tails <= 1,
|
|
legs == 8,
|
|
torso_style >= 20,
|
|
)
|
|
|
|
# Skeleton must have no unfilled skulls
|
|
model.Add(cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.skulls_needed for action in actions.keys()]) == 0)
|
|
|
|
# Skeleton must have no unfilled limbs
|
|
model.Add(cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.limbs_needed for action in actions.keys()]) == 0)
|
|
|
|
# Skeleton must have no unfilled tails, unless they were skipped
|
|
model.Add(cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.tails_needed for action in actions.keys()]) == 0).OnlyEnforceIf(actions[Appendage.SKIP_TAILS].Not())
|
|
model.Add(cp_model.LinearExpr.WeightedSum(actions.values(), [action.value.tails_needed for action in actions.keys()]) > 0).OnlyEnforceIf(actions[Appendage.SKIP_TAILS])
|
|
|
|
|
|
model.AddIf(actions[Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES],
|
|
skeleton_in_progress >= 100,
|
|
primary_revenue == value + zoological_mania_bonus + 5,
|
|
secondary_revenue == 500,
|
|
difficulty_level == 40*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_NAIVE_COLLECTOR],
|
|
skeleton_in_progress >= 100,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue,
|
|
(250, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=250)),
|
|
),
|
|
secondary_revenue == 0,
|
|
difficulty_level == 25*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS],
|
|
skeleton_in_progress >= 100,
|
|
antiquity == 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 1000,
|
|
(250, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=250)),
|
|
),
|
|
secondary_revenue == 250*counter_church,
|
|
difficulty_level == 50*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER],
|
|
skeleton_in_progress >= 100,
|
|
menace == 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 1000,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=50)),
|
|
),
|
|
secondary_revenue == 0,
|
|
difficulty_level == 50*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL],
|
|
skeleton_in_progress >= 100,
|
|
amalgamy == 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 1000,
|
|
(250, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=250)),
|
|
),
|
|
secondary_revenue == 0,
|
|
difficulty_level == 50*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD],
|
|
skeleton_in_progress >= 100,
|
|
antiquity > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=50)),
|
|
),
|
|
secondary_revenue == 250*(antiquity + (1 if bone_market_fluctuations == Fluctuation.ANTIQUITY else 0)),
|
|
difficulty_level == 45*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.MRS_PLENTY],
|
|
skeleton_in_progress >= 100,
|
|
menace > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=50)),
|
|
),
|
|
secondary_revenue == 250*menace,
|
|
difficulty_level == 45*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_TENTACLED_SERVANT],
|
|
skeleton_in_progress >= 100,
|
|
amalgamy > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=50)),
|
|
),
|
|
secondary_revenue == 250*(amalgamy + (1 if bone_market_fluctuations == Fluctuation.AMALGAMY else 0)),
|
|
difficulty_level == 45*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR],
|
|
skeleton_in_progress >= 100,
|
|
antiquity > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables = (
|
|
4,
|
|
partialmethod(BoneMarketModel.AddApproximateExponentiationEquality,
|
|
var=antiquity,
|
|
exp=2.1,
|
|
upto=MAXIMUM_ATTRIBUTE,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.ANTIQUITY else
|
|
(
|
|
4,
|
|
antiquity,
|
|
antiquity,
|
|
),
|
|
),
|
|
denom=5,
|
|
),
|
|
),
|
|
),
|
|
difficulty_level == 75*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(antiquity, antiquity)),
|
|
25,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_TELLER_OF_TERRORS],
|
|
skeleton_in_progress >= 100,
|
|
menace > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(10, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=10)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
200,
|
|
partialmethod(BoneMarketModel.AddApproximateExponentiationEquality, var=menace, exp=2.1, upto=MAXIMUM_ATTRIBUTE),
|
|
) if bone_market_fluctuations == Fluctuation.MENACE else
|
|
(
|
|
200,
|
|
menace,
|
|
menace,
|
|
),
|
|
),
|
|
difficulty_level == 75*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(menace, menace)),
|
|
25,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR],
|
|
skeleton_in_progress >= 100,
|
|
amalgamy > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
200,
|
|
partialmethod(BoneMarketModel.AddApproximateExponentiationEquality, var=amalgamy, exp=2.1, upto=MAXIMUM_ATTRIBUTE),
|
|
) if bone_market_fluctuations == Fluctuation.AMALGAMY else
|
|
(
|
|
200,
|
|
amalgamy,
|
|
amalgamy,
|
|
),
|
|
),
|
|
difficulty_level == 75*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(amalgamy, amalgamy)),
|
|
25,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES],
|
|
skeleton_in_progress >= 100,
|
|
antiquity > 0,
|
|
menace > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(2*antiquity + 1, menace)
|
|
),
|
|
denom=2,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.MENACE else
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(antiquity, 2*menace + 1)
|
|
),
|
|
denom=2,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.ANTIQUITY else
|
|
(
|
|
250,
|
|
antiquity,
|
|
menace,
|
|
),
|
|
),
|
|
difficulty_level == 75*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(antiquity, menace)),
|
|
20,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS],
|
|
skeleton_in_progress >= 100,
|
|
antiquity > 0,
|
|
amalgamy > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(10, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=10)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(2*antiquity + 1, amalgamy)
|
|
),
|
|
denom=2,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.AMALGAMY else
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(antiquity, 2*amalgamy + 1)
|
|
),
|
|
denom=2,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.ANTIQUITY else
|
|
(
|
|
250,
|
|
antiquity,
|
|
amalgamy,
|
|
),
|
|
),
|
|
difficulty_level == 75*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(antiquity, amalgamy)),
|
|
20,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_RUBBERY_COLLECTOR],
|
|
skeleton_in_progress >= 100,
|
|
amalgamy > 0,
|
|
menace > 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(2*amalgamy + 1, menace)
|
|
),
|
|
denom=2,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.MENACE else
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
variables=(amalgamy, 2*menace + 1)
|
|
),
|
|
denom=2,
|
|
),
|
|
) if bone_market_fluctuations == Fluctuation.AMALGAMY else
|
|
(
|
|
250,
|
|
amalgamy,
|
|
menace,
|
|
),
|
|
),
|
|
difficulty_level == 75*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(amalgamy, menace)),
|
|
20,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_CONSTABLE],
|
|
cp_model.BoundedLinearExpression(skeleton_in_progress, (110, 119)),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 1000,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value, denom=50)),
|
|
),
|
|
secondary_revenue == 0,
|
|
difficulty_level == 50*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS],
|
|
skeleton_in_progress >= 100,
|
|
skulls >= 2,
|
|
primary_revenue == value + zoological_mania_bonus,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
1250,
|
|
partialmethod(BoneMarketModel.AddApproximateExponentiationEquality, var = skulls-1, exp=1.8, upto=MAXIMUM_ATTRIBUTE),
|
|
),
|
|
),
|
|
difficulty_level == 60*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality, added_exhaustion, secondary_revenue, 5000),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.A_DREARY_MIDNIGHTER],
|
|
cp_model.BoundedLinearExpression(skeleton_in_progress, (110, 299)),
|
|
amalgamy == 0,
|
|
counter_church == 0,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 300,
|
|
(3, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=3)),
|
|
),
|
|
secondary_revenue == 250,
|
|
difficulty_level == 100*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
{
|
|
model.AddIf(actions[getattr(Buyer, 'A_COLOURFUL_PHANTASIST_' + style)],
|
|
skeleton_in_progress >= 100,
|
|
implausibility >= 2,
|
|
attribute >= 4,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 100,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value + zoological_mania_bonus, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, secondary_revenue - 250, (250, attribute, implausibility)),
|
|
difficulty_level == 0,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality, added_exhaustion, secondary_revenue, 5000),
|
|
) for style, attribute in (
|
|
('BAZAARINE', amalgamy),
|
|
('NOCTURNAL', menace),
|
|
('CELESTIAL', antiquity),
|
|
)
|
|
}
|
|
|
|
model.AddIf(actions[Buyer.AN_INGENUOUS_MALACOLOGIST],
|
|
tentacles >= 4,
|
|
skeleton_in_progress >= 100,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 250,
|
|
(250, partialmethod(BoneMarketModel.AddDivisionEquality, num=value, denom=250)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
250,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
num=partialmethod(BoneMarketModel.AddApproximateExponentiationEquality, var=tentacles, exp=2.2, upto=MAXIMUM_ATTRIBUTE),
|
|
denom=5,
|
|
),
|
|
),
|
|
),
|
|
difficulty_level == 60*implausibility,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(tentacles, tentacles)),
|
|
100,
|
|
),
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.AN_ENTERPRISING_BOOT_SALESMAN],
|
|
menace == 0,
|
|
amalgamy == 0,
|
|
skeleton_in_progress >= 100,
|
|
legs >= 4,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num = value+zoological_mania_bonus, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(50, partialmethod(BoneMarketModel.AddApproximateExponentiationEquality, var=legs, exp=2.2, upto=MAXIMUM_ATTRIBUTE)),
|
|
),
|
|
difficulty_level == 0,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality,
|
|
added_exhaustion,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, variables=(legs, legs)),
|
|
100,
|
|
),
|
|
)
|
|
|
|
# Exhibition
|
|
|
|
exhibition_payout = model.NewIntVar('exhibition payout', lb = 0)
|
|
|
|
multiplied_exhibition_value = model.NewIntVar('multiplied exhibition value', lb = 0)
|
|
model.Add(multiplied_exhibition_value == 11*value)
|
|
model.AddDivisionEquality(exhibition_payout, multiplied_exhibition_value, 10)
|
|
|
|
model.AddIf(actions[Buyer.EXHIBITION],
|
|
cp_model.BoundedLinearExpression(skeleton_in_progress, (110, 212)),
|
|
implausibility == 0,
|
|
value >= 9000,
|
|
antiquity >= 3,
|
|
amalgamy == 0,
|
|
primary_revenue == exhibition_payout,
|
|
secondary_revenue == 0,
|
|
difficulty_level == 0,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
del exhibition_payout, multiplied_exhibition_value
|
|
|
|
model.AddIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL],
|
|
cp_model.BoundedLinearExpression(skeleton_in_progress, (180, 189)),
|
|
value >= 250,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue,
|
|
(250, partialmethod(BoneMarketModel.AddDivisionEquality, num=value, denom=250)),
|
|
),
|
|
secondary_revenue == 0,
|
|
difficulty_level == 200,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
model.AddIf(actions[Buyer.THE_CARPENTERS_GRANDDAUGHTER],
|
|
skeleton_in_progress >= 100,
|
|
value + zoological_mania_bonus >= 30000,
|
|
primary_revenue == 31250,
|
|
secondary_revenue == 0,
|
|
difficulty_level == 100*implausibility,
|
|
added_exhaustion == 0,
|
|
)
|
|
|
|
# The Trifling Diplomat
|
|
{
|
|
model.AddIf(actions[getattr(DiplomatFascination, str(attribute).upper()).value],
|
|
skeleton_in_progress >= 100,
|
|
attribute >= 5,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 50,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality, secondary_revenue, (50, attribute, attribute)),
|
|
difficulty_level == 0,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality, added_exhaustion, secondary_revenue, 5000),
|
|
) for attribute in (
|
|
amalgamy,
|
|
antiquity,
|
|
menace,
|
|
)
|
|
}
|
|
{
|
|
model.AddIf(actions[getattr(DiplomatFascination, fascination).value],
|
|
*criteria,
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
primary_revenue - 50,
|
|
(50, partialmethod(BoneMarketModel.AddDivisionEquality, num=value, denom=50)),
|
|
),
|
|
partialmethod(BoneMarketModel.AddMultiplicationEquality,
|
|
secondary_revenue,
|
|
(
|
|
50,
|
|
partialmethod(BoneMarketModel.AddApproximateExponentiationEquality,
|
|
var=partialmethod(BoneMarketModel.AddDivisionEquality, num = amalgamy+antiquity+menace, denom=3),
|
|
exp=2.2,
|
|
upto=MAXIMUM_ATTRIBUTE,
|
|
),
|
|
),
|
|
),
|
|
difficulty_level == 0,
|
|
partialmethod(BoneMarketModel.AddDivisionEquality, added_exhaustion, secondary_revenue, 5000),
|
|
) for fascination, criteria in (
|
|
('AMPHIBIAN', (cp_model.BoundedLinearExpression(skeleton_in_progress, (170, 179)),)),
|
|
('BIRD', (cp_model.BoundedLinearExpression(skeleton_in_progress, (180, 189)),)),
|
|
('FISH', (cp_model.BoundedLinearExpression(skeleton_in_progress, (190, 199)),)),
|
|
('INSECT', (cp_model.BoundedLinearExpression(skeleton_in_progress, (210, 219)),)),
|
|
('LEGS', (skeleton_in_progress >= 100, legs >= 10)),
|
|
('REPTILE', (cp_model.BoundedLinearExpression(skeleton_in_progress, (160, 169)),)),
|
|
('SKULLS', (skeleton_in_progress >= 100, skulls >= 5)),
|
|
)
|
|
}
|
|
|
|
|
|
# Maximize profit margin
|
|
net_profit = model.NewIntVar('net profit')
|
|
model.Add(net_profit == total_revenue - cost)
|
|
|
|
# This is necessary to preserve some degree of precision after dividing
|
|
multiplied_net_profit = model.NewIntVar('multiplied net profit', lb = cp_model.INT32_MIN*PROFIT_MARGIN_MULTIPLIER, ub = cp_model.INT32_MAX*PROFIT_MARGIN_MULTIPLIER)
|
|
model.AddMultiplicationEquality(multiplied_net_profit, (net_profit, PROFIT_MARGIN_MULTIPLIER))
|
|
|
|
absolute_multiplied_net_profit = model.NewIntVar('absolute multiplied net profit', lb = 0, ub = cp_model.INT32_MAX*PROFIT_MARGIN_MULTIPLIER)
|
|
model.AddAbsEquality(absolute_multiplied_net_profit, multiplied_net_profit)
|
|
|
|
absolute_profit_margin = model.NewIntVar('absolute profit margin', lb = cp_model.INT32_MIN*PROFIT_MARGIN_MULTIPLIER, ub = cp_model.INT32_MAX*PROFIT_MARGIN_MULTIPLIER)
|
|
model.AddDivisionEquality(absolute_profit_margin, absolute_multiplied_net_profit, total_revenue)
|
|
|
|
profit_margin = model.NewIntVar('profit margin', lb = cp_model.INT32_MIN*PROFIT_MARGIN_MULTIPLIER, ub = cp_model.INT32_MAX*PROFIT_MARGIN_MULTIPLIER)
|
|
|
|
positive_net_profit = model.BoolExpression(net_profit >= 0)
|
|
model.Add(profit_margin == absolute_profit_margin).OnlyEnforceIf(positive_net_profit)
|
|
model.Add(profit_margin == absolute_profit_margin*-1).OnlyEnforceIf(positive_net_profit.Not())
|
|
|
|
del multiplied_net_profit, absolute_multiplied_net_profit, absolute_profit_margin, positive_net_profit
|
|
|
|
|
|
model.Maximize(profit_margin)
|
|
|
|
|
|
class SkeletonPrinter(cp_model.CpSolverSolutionCallback):
|
|
"""A class that prints the steps that comprise a skeleton as well as relevant attributes."""
|
|
|
|
__slots__ = 'this', '__solution_count'
|
|
|
|
def __init__(self):
|
|
cp_model.CpSolverSolutionCallback.__init__(self)
|
|
self.__solution_count = 0
|
|
|
|
def PrintableSolution(self, solver = None):
|
|
"""Print the latest solution of a provided solver."""
|
|
|
|
output = ""
|
|
|
|
# Allows use as a callback
|
|
if solver is None:
|
|
solver = self
|
|
|
|
for action in actions.keys():
|
|
for _ in range(int(solver.Value(actions[action]))):
|
|
output += str(action) + "\n"
|
|
|
|
output += f"""
|
|
Profit: £{solver.Value(net_profit)/100:,.2f}
|
|
Profit Margin: {solver.Value(profit_margin)/PROFIT_MARGIN_MULTIPLIER:+,.2%}
|
|
|
|
Total Revenue: £{solver.Value(total_revenue)/100:,.2f}
|
|
Primary Revenue: £{solver.Value(primary_revenue)/100:,.2f}
|
|
Secondary Revenue: £{solver.Value(secondary_revenue)/100:,.2f}
|
|
|
|
Cost: £{solver.Value(cost)/100:,.2f}
|
|
|
|
Value: £{solver.Value(value)/100:,.2f}
|
|
Amalgamy: {solver.Value(amalgamy):n}
|
|
Antiquity: {solver.Value(antiquity):n}
|
|
Menace: {solver.Value(menace):n}
|
|
Counter-Church: {solver.Value(counter_church):n}
|
|
Implausibility: {solver.Value(implausibility):n}
|
|
|
|
Exhaustion: {solver.Value(exhaustion):n}"""
|
|
|
|
return output
|
|
|
|
|
|
def OnSolutionCallback(self):
|
|
self.__solution_count += 1
|
|
|
|
# Prints current solution to window
|
|
stdscr.clear()
|
|
stdscr.addstr(self.PrintableSolution())
|
|
|
|
stdscr.addstr(stdscr.getmaxyx()[0] - 1, 0, f"Skeleton #{self.__solution_count:n}")
|
|
|
|
stdscr.refresh()
|
|
|
|
|
|
def SolutionCount(self):
|
|
return self.__solution_count
|
|
|
|
|
|
printer = SkeletonPrinter()
|
|
|
|
solver = cp_model.CpSolver()
|
|
if workers:
|
|
solver.parameters.num_workers = workers
|
|
solver.parameters.max_time_in_seconds = time_limit
|
|
|
|
# There's no window in verbose mode
|
|
if stdscr is None:
|
|
solver.parameters.log_search_progress = True
|
|
solver.Solve(model)
|
|
else:
|
|
solver.Solve(model, printer)
|
|
|
|
status = solver.StatusName()
|
|
|
|
if status == 'INFEASIBLE':
|
|
raise RuntimeError("There is no satisfactory skeleton.")
|
|
elif status == 'FEASIBLE':
|
|
print("WARNING: skeleton may be suboptimal.")
|
|
elif status != 'OPTIMAL':
|
|
raise RuntimeError(f"Unknown status returned: {status}.")
|
|
|
|
return printer.PrintableSolution(solver)
|