Add fossilised fish fascination for Diplomat
This fascination effectively requires a Fish declaration, and scales with all three skeleton attributes multiplied together.
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@ -1164,6 +1164,11 @@ class Buyer(Enum):
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cost = Cost.ACTION.value
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cost = Cost.ACTION.value
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)
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)
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THE_TRIFLING_DIPLOMAT_FOSSIL_FISH = Action(
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"Sell the Diplomat a fossil fish",
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cost = Cost.ACTION.value
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)
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def __str__(self):
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def __str__(self):
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return str(self.value)
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return str(self.value)
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@ -1194,6 +1199,8 @@ class DiplomatFascination(Enum):
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ANTIQUITY = Buyer.THE_TRIFLING_DIPLOMAT_ANTIQUE
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ANTIQUITY = Buyer.THE_TRIFLING_DIPLOMAT_ANTIQUE
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FOSSILISED_FISH = Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH
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def Solve(shadowy_level, bone_market_fluctuations, zoological_mania, 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(), stdscr = None):
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def Solve(shadowy_level, bone_market_fluctuations, zoological_mania, 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(), stdscr = None):
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model = cp_model.CpModel()
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model = cp_model.CpModel()
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@ -2142,6 +2149,38 @@ def Solve(shadowy_level, bone_market_fluctuations, zoological_mania, occasional_
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del antiquity_squared, value_remainder, derived_exhaustion
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del antiquity_squared, value_remainder, derived_exhaustion
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# The Trifling Diplomat - Fossilised Fish
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model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([190, 199])).OnlyEnforceIf(actions[Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH])
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non_negative_amalgamy = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH.name, 'non-negative amalgamy'))
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model.AddMaxEquality(non_negative_amalgamy, [amalgamy, 0])
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non_negative_menace = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH.name, 'non-negative menace'))
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model.AddMaxEquality(non_negative_menace, [menace, 0])
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non_negative_antiquity = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH.name, 'non-negative antiquity'))
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model.AddMaxEquality(non_negative_antiquity, [antiquity, 0])
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compromising_documents = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH.name, ''))
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model.AddGeneralMultiplicationEquality(compromising_documents, non_negative_amalgamy, non_negative_menace, non_negative_antiquity)
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value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH.name, 'value remainder'))
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model.AddModuloEquality(value_remainder, value, 50)
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model.Add(primary_revenue == value - value_remainder + 50).OnlyEnforceIf(actions[Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH])
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model.Add(secondary_revenue == 50*compromising_documents).OnlyEnforceIf(actions[Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH])
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# TODO: Add actual difficulty level
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model.Add(difficulty_level == 0).OnlyEnforceIf(actions[Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH])
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# The indirection is necessary for applying an enforcement literal
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derived_exhaustion = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH.name, 'derived exhaustion'))
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model.AddDivisionEquality(derived_exhaustion, compromising_documents, 100)
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model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.THE_TRIFLING_DIPLOMAT_FOSSIL_FISH])
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del non_negative_amalgamy, non_negative_menace, non_negative_antiquity, compromising_documents, value_remainder, derived_exhaustion
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# Maximize profit margin
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# Maximize profit margin
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net_profit = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, 'net profit')
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net_profit = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, 'net profit')
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model.Add(net_profit == total_revenue - cost)
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model.Add(net_profit == total_revenue - cost)
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