Make buyers part of model

Buyers are now part of the model, rather than being fixed. This means
that the model can choose from among all buyers and determine the most
profitable option.

Accomplishing this meant replacing the if-else control flow with a large
quantity of half-reified constraints.
This commit is contained in:
Jeremy Saklad 2021-06-13 17:37:39 -05:00
parent 52a509bd19
commit d571167742
Signed by: Jeremy Saklad
GPG Key ID: 9CA2149583EDBF84
1 changed files with 356 additions and 294 deletions

View File

@ -1172,12 +1172,23 @@ def Solve():
for embellishment in Embellishment:
actions[embellishment] = model.NewIntVar(0, cp_model.INT32_MAX, embellishment.value.name)
# Buyer
for buyer in Buyer:
actions[buyer] = model.NewBoolVar(buyer.value.name)
# One torso
model.Add(cp_model.LinearExpr.Sum([value for (key, value) in actions.items() if isinstance(key, Torso)]) == 1)
# One declaration
model.Add(cp_model.LinearExpr.Sum([value for (key, value) in actions.items() if isinstance(key, Declaration)]) == 1)
# One buyer
model.Add(cp_model.LinearExpr.Sum([value for (key, value) in actions.items() if isinstance(key, Buyer)]) == 1)
# Set buyer
if BUYER is not None:
model.Add(actions[BUYER] == 1)
# Value calculation
original_value = model.NewIntVar(0, cp_model.INT32_MAX, 'original value')
model.Add(original_value == cp_model.LinearExpr.ScalProd(actions.values(), [action.value.value for action in actions.keys()]))
@ -1265,7 +1276,6 @@ def Solve():
# Profit intermediate variables
value_remainder = model.NewIntVar(0, cp_model.INT32_MAX, 'value remainder')
primary_revenue = model.NewIntVar(0, cp_model.INT32_MAX, 'primary revenue')
secondary_revenue = model.NewIntVar(0, cp_model.INT32_MAX, 'secondary revenue')
total_revenue = model.NewIntVar(0, cp_model.INT32_MAX*2, 'total revenue')
@ -1537,309 +1547,361 @@ def Solve():
model.Add(cp_model.LinearExpr.ScalProd(actions.values(), [action.value.tails_needed for action in actions.keys()]) == 0).OnlyEnforceIf(actions[Appendage.SKIP_TAILS].Not())
model.Add(cp_model.LinearExpr.ScalProd(actions.values(), [action.value.tails_needed for action in actions.keys()]) >= 0).OnlyEnforceIf(actions[Appendage.SKIP_TAILS])
if BUYER == Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES:
model.Add(skeleton_in_progress >= 100)
# Revenue
model.Add(primary_revenue == value + 5)
model.Add(secondary_revenue == 500)
# Difficulty Level
model.Add(difficulty_level == 40*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.A_NAIVE_COLLECTOR:
model.Add(skeleton_in_progress >= 100)
model.AddModuloEquality(value_remainder, value, 250)
# Revenue
model.Add(primary_revenue == value - value_remainder)
model.Add(secondary_revenue == 0)
# Difficulty Level
model.Add(difficulty_level == 25*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS:
model.Add(skeleton_in_progress >= 100)
model.Add(antiquity <= 0)
model.AddModuloEquality(value_remainder, value, 250)
# Revenue
model.Add(primary_revenue == value - value_remainder + 1000)
model.Add(secondary_revenue == 250*counter_church)
# Difficulty Level
model.Add(difficulty_level == 50*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER:
model.Add(skeleton_in_progress >= 100)
model.Add(menace <= 0)
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder + 1000)
model.Add(secondary_revenue == 0)
# Difficulty Level
model.Add(difficulty_level == 50*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL:
model.Add(skeleton_in_progress >= 100)
model.Add(amalgamy <= 0)
model.AddModuloEquality(value_remainder, value, 250)
# Revenue
model.Add(primary_revenue == value - value_remainder + 1000)
model.Add(secondary_revenue == 0)
# Difficulty Level
model.Add(difficulty_level == 50*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD:
model.Add(skeleton_in_progress >= 100)
model.Add(antiquity > 0)
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder)
model.Add(secondary_revenue == 250*antiquity + (250 if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY else 0))
# Difficulty Level
model.Add(difficulty_level == 45*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.MRS_PLENTY:
model.Add(skeleton_in_progress >= 100)
model.Add(menace > 0)
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder)
model.Add(secondary_revenue == 250*menace)
# Difficulty Level
model.Add(difficulty_level == 45*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.A_TENTACLED_SERVANT:
model.Add(skeleton_in_progress >= 100)
model.Add(amalgamy > 0)
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder + 250)
model.Add(secondary_revenue == 250*amalgamy + (250 if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY else 0))
# Difficulty Level
model.Add(difficulty_level == 45*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.AN_INVESTMENT_MINDED_AMBASSADOR:
model.Add(skeleton_in_progress >= 100)
model.Add(antiquity > 0)
antiquity_squared = model.NewIntVar(0, cp_model.INT32_MAX, 'antiquity squared')
model.AddMultiplicationEquality(antiquity_squared, [antiquity, antiquity])
tailfeathers = model.NewIntVar(0, cp_model.INT32_MAX, 'tailfeathers')
if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY:
model.AddApproximateExponentiationEquality(tailfeathers, antiquity, 2.2, MAXIMUM_ATTRIBUTE)
else:
model.Add(tailfeathers == antiquity_squared)
model.AddModuloEquality(value_remainder, value, 50)
extra_value = model.NewIntermediateBoolVar('extra value', value_remainder, cp_model.Domain.FromFlatIntervals([0, cp_model.INT_MAX]))
# Revenue
model.Add(primary_revenue == value + 50*extra_value + 250)
model.Add(secondary_revenue == 250*tailfeathers)
# Difficulty Level
model.Add(difficulty_level == 75*implausibility)
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, antiquity_squared, 20)
elif BUYER == Buyer.A_TELLER_OF_TERRORS:
model.Add(skeleton_in_progress >= 100)
model.Add(menace > 0)
menace_squared = model.NewIntVar(0, cp_model.INT32_MAX, 'menace squared')
model.AddMultiplicationEquality(menace_squared, [menace, menace])
model.AddModuloEquality(value_remainder, value, 10)
# Revenue
model.Add(primary_revenue == value - value_remainder + 50)
model.Add(secondary_revenue == 50*menace_squared)
# Difficulty Level
model.Add(difficulty_level == 75*implausibility)
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, menace_squared, 100)
elif BUYER == Buyer.A_TENTACLED_ENTREPRENEUR:
model.Add(skeleton_in_progress >= 100)
model.Add(amalgamy > 0)
amalgamy_squared = model.NewIntVar(0, cp_model.INT32_MAX, 'amalgamy squared')
model.AddMultiplicationEquality(amalgamy_squared, [amalgamy, amalgamy])
final_breaths = model.NewIntVar(0, cp_model.INT32_MAX, 'final breaths')
if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY:
model.AddApproximateExponentiationEquality(final_breaths, amalgamy, 2.2, MAXIMUM_ATTRIBUTE)
else:
model.Add(final_breaths == amalgamy_squared)
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder + 250)
model.Add(secondary_revenue == 50*final_breaths)
# Difficulty Level
model.Add(difficulty_level == 75*implausibility)
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, amalgamy_squared, 100)
elif BUYER == Buyer.AN_AUTHOR_OF_GOTHIC_TALES:
model.Add(skeleton_in_progress >= 100)
model.Add(antiquity > 0)
model.Add(menace > 0)
antiquity_times_menace = model.NewIntVar(0, cp_model.INT32_MAX, 'antiquity times menace')
model.AddMultiplicationEquality(antiquity_times_menace, [antiquity, menace])
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder + 250)
model.Add(secondary_revenue == 250*antiquity_times_menace + 250*(menace if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY else 0))
# Difficulty Level
model.Add(difficulty_level == 75*implausibility)
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, antiquity_times_menace, 20)
elif BUYER == Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS:
model.Add(skeleton_in_progress >= 100)
model.Add(antiquity > 0)
model.Add(amalgamy > 0)
amalgamy_times_antiquity = model.NewIntVar(0, cp_model.INT32_MAX, 'amalgamy times antiquity')
model.AddMultiplicationEquality(amalgamy_times_antiquity, [amalgamy, antiquity])
model.AddModuloEquality(value_remainder, value, 10)
# Revenue
model.Add(primary_revenue == value - value_remainder + 250)
model.Add(secondary_revenue == 250*amalgamy_times_antiquity + 250*(amalgamy if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY else antiquity if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY else 0))
# Difficulty Level
model.Add(difficulty_level == 75*implausibility)
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, amalgamy_times_antiquity, 20)
elif BUYER == Buyer.A_RUBBERY_COLLECTOR:
model.Add(skeleton_in_progress >= 100)
model.Add(amalgamy > 0)
model.Add(menace > 0)
amalgamy_times_menace = model.NewIntVar(0, cp_model.INT32_MAX, 'amalgamy times menace')
model.AddMultiplicationEquality(amalgamy_times_menace, [amalgamy, menace])
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder + 250)
model.Add(secondary_revenue == 250*amalgamy_times_menace + 250*(menace if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY else 0))
# Difficulty Level
model.Add(difficulty_level == 75*implausibility)
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, amalgamy_times_menace, 20)
elif BUYER == Buyer.A_CONSTABLE:
model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([110, 119]))
model.AddModuloEquality(value_remainder, value, 50)
# Revenue
model.Add(primary_revenue == value - value_remainder + 1000)
model.Add(secondary_revenue == 0)
# Difficulty Level
model.Add(difficulty_level == 50*implausibility)
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.AN_ENTHUSIAST_IN_SKULLS:
model.Add(skeleton_in_progress >= 100)
model.Add(skulls >= 2)
extra_skulls = model.NewIntVar(0, cp_model.INT32_MAX, 'extra skulls')
model.Add(extra_skulls == skulls - 1)
vital_intelligence = model.NewIntVar(0, cp_model.INT32_MAX, 'vital intelligence')
model.AddApproximateExponentiationEquality(vital_intelligence, extra_skulls, 1.8, MAXIMUM_ATTRIBUTE)
# A Palaeontologist with Hoarding Propensities
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES])
# Revenue
model.Add(primary_revenue == value)
model.Add(secondary_revenue == 1250*vital_intelligence)
# Difficulty Level
model.Add(difficulty_level == 60*implausibility)
model.Add(primary_revenue == value + 5).OnlyEnforceIf(actions[Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES])
model.Add(secondary_revenue == 500).OnlyEnforceIf(actions[Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES])
# Added Exhaustion
model.AddDivisionEquality(added_exhaustion, vital_intelligence, 4)
elif BUYER == Buyer.A_DREARY_MIDNIGHTER:
model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([110, 299]))
model.Add(amalgamy <= 0)
model.Add(counter_church <= 0)
model.Add(difficulty_level == 40*implausibility).OnlyEnforceIf(actions[Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES])
model.AddModuloEquality(value_remainder, value, 3)
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_PALAEONTOLOGIST_WITH_HOARDING_PROPENSITIES])
# Revenue
model.Add(primary_revenue == value - value_remainder + 300)
model.Add(secondary_revenue == 250)
# Difficulty Level
model.Add(difficulty_level == 100*implausibility)
# A Naive Collector
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_NAIVE_COLLECTOR])
# Added Exhaustion
model.Add(added_exhaustion == 0)
elif BUYER == Buyer.THE_DUMBWAITER_OF_BALMORAL:
model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([180, 189]))
model.Add(value >= 250)
value_remainder = model.NewIntVar(0, 249, '{}: {}'.format(Buyer.A_NAIVE_COLLECTOR.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 250)
model.AddModuloEquality(value_remainder, value, 250)
model.Add(primary_revenue == value - value_remainder).OnlyEnforceIf(actions[Buyer.A_NAIVE_COLLECTOR])
model.Add(secondary_revenue == 0).OnlyEnforceIf(actions[Buyer.A_NAIVE_COLLECTOR])
# Revenue
model.Add(primary_revenue == value - value_remainder)
model.Add(secondary_revenue == 0)
model.Add(difficulty_level == 25*implausibility).OnlyEnforceIf(actions[Buyer.A_NAIVE_COLLECTOR])
# Difficulty Level
model.Add(difficulty_level == 200)
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_NAIVE_COLLECTOR])
# Added Exhaustion
model.Add(added_exhaustion == 0)
del value_remainder
# A Familiar Bohemian Sculptress
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS])
model.Add(antiquity <= 0).OnlyEnforceIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS])
value_remainder = model.NewIntVar(0, 249, '{}: {}'.format(Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 250)
model.Add(primary_revenue == value - value_remainder + 1000).OnlyEnforceIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS])
model.Add(secondary_revenue == 250*counter_church).OnlyEnforceIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS])
model.Add(difficulty_level == 50*implausibility).OnlyEnforceIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_FAMILIAR_BOHEMIAN_SCULPTRESS])
del value_remainder
# A Pedagogically Inclined Grandmother
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER])
model.Add(menace <= 0).OnlyEnforceIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder + 1000).OnlyEnforceIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER])
model.Add(secondary_revenue == 0).OnlyEnforceIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER])
model.Add(difficulty_level == 50*implausibility).OnlyEnforceIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_PEDAGOGICALLY_INCLINED_GRANDMOTHER])
del value_remainder
# A Theologian of the Old School
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL])
model.Add(amalgamy <= 0).OnlyEnforceIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL])
value_remainder = model.NewIntVar(0, 249, '{}: {}'.format(Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 250)
model.Add(primary_revenue == value - value_remainder + 1000).OnlyEnforceIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL])
model.Add(secondary_revenue == 0).OnlyEnforceIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL])
model.Add(difficulty_level == 50*implausibility).OnlyEnforceIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_THEOLOGIAN_OF_THE_OLD_SCHOOL])
del value_remainder
# An Enthusiast of the Ancient World
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD])
model.Add(antiquity > 0).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD])
model.Add(secondary_revenue == 250*antiquity + (250 if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY else 0)).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD])
model.Add(difficulty_level == 45*implausibility).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_OF_THE_ANCIENT_WORLD])
del value_remainder
# Mrs Plenty
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.MRS_PLENTY])
model.Add(menace > 0).OnlyEnforceIf(actions[Buyer.MRS_PLENTY])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.MRS_PLENTY.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder).OnlyEnforceIf(actions[Buyer.MRS_PLENTY])
model.Add(secondary_revenue == 250*menace).OnlyEnforceIf(actions[Buyer.MRS_PLENTY])
model.Add(difficulty_level == 45*implausibility).OnlyEnforceIf(actions[Buyer.MRS_PLENTY])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.MRS_PLENTY])
del value_remainder
# A Tentacled Servant
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_TENTACLED_SERVANT])
model.Add(amalgamy > 0).OnlyEnforceIf(actions[Buyer.A_TENTACLED_SERVANT])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.A_TENTACLED_SERVANT.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder + 250).OnlyEnforceIf(actions[Buyer.A_TENTACLED_SERVANT])
model.Add(secondary_revenue == 250*amalgamy + (250 if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY else 0)).OnlyEnforceIf(actions[Buyer.A_TENTACLED_SERVANT])
model.Add(difficulty_level == 45*implausibility).OnlyEnforceIf(actions[Buyer.A_TENTACLED_SERVANT])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_TENTACLED_SERVANT])
del value_remainder
# An Investment-Minded Ambassador
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
model.Add(antiquity > 0).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
antiquity_squared = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_INVESTMENT_MINDED_AMBASSADOR.name, 'antiquity squared'))
model.AddMultiplicationEquality(antiquity_squared, [antiquity, antiquity])
tailfeathers = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_INVESTMENT_MINDED_AMBASSADOR.name, 'tailfeathers'))
if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY:
model.AddApproximateExponentiationEquality(tailfeathers, antiquity, 2.2, MAXIMUM_ATTRIBUTE)
else:
model.Add(tailfeathers == antiquity_squared).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.AN_INVESTMENT_MINDED_AMBASSADOR.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
extra_value = model.NewIntermediateBoolVar('{}: {}'.format(Buyer.AN_INVESTMENT_MINDED_AMBASSADOR.name, 'extra value'), value_remainder, cp_model.Domain.FromFlatIntervals([0, cp_model.INT_MAX]))
model.Add(primary_revenue == value + 50*extra_value + 250).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
model.Add(secondary_revenue == 250*tailfeathers).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
model.Add(difficulty_level == 75*implausibility).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_INVESTMENT_MINDED_AMBASSADOR.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, antiquity_squared, 20)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.AN_INVESTMENT_MINDED_AMBASSADOR])
del antiquity_squared, tailfeathers, value_remainder, extra_value, derived_exhaustion
# A Teller of Terrors
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_TELLER_OF_TERRORS])
model.Add(menace > 0).OnlyEnforceIf(actions[Buyer.A_TELLER_OF_TERRORS])
menace_squared = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_TELLER_OF_TERRORS.name, 'menace squared'))
model.AddMultiplicationEquality(menace_squared, [menace, menace])
value_remainder = model.NewIntVar(0, 9, '{}: {}'.format(Buyer.A_TELLER_OF_TERRORS.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 10)
model.Add(primary_revenue == value - value_remainder + 50).OnlyEnforceIf(actions[Buyer.A_TELLER_OF_TERRORS])
model.Add(secondary_revenue == 50*menace_squared).OnlyEnforceIf(actions[Buyer.A_TELLER_OF_TERRORS])
model.Add(difficulty_level == 75*implausibility).OnlyEnforceIf(actions[Buyer.A_TELLER_OF_TERRORS])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_TELLER_OF_TERRORS.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, menace_squared, 100)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.A_TELLER_OF_TERRORS])
del menace_squared, value_remainder, derived_exhaustion
# A Tentacled Entrepreneur
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
model.Add(amalgamy > 0).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
amalgamy_squared = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_TENTACLED_ENTREPRENEUR.name, 'amalgamy squared'))
model.AddMultiplicationEquality(amalgamy_squared, [amalgamy, amalgamy])
final_breaths = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_TENTACLED_ENTREPRENEUR.name, 'final breaths'))
if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY:
model.AddApproximateExponentiationEquality(final_breaths, amalgamy, 2.2, MAXIMUM_ATTRIBUTE)
else:
model.Add(final_breaths == amalgamy_squared).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.A_TENTACLED_ENTREPRENEUR.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder + 250).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
model.Add(secondary_revenue == 50*final_breaths).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
model.Add(difficulty_level == 75*implausibility).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_TENTACLED_ENTREPRENEUR.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, amalgamy_squared, 100)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.A_TENTACLED_ENTREPRENEUR])
del amalgamy_squared, final_breaths, value_remainder, derived_exhaustion
# An Author of Gothic Tales
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
model.Add(antiquity > 0).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
model.Add(menace > 0).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
antiquity_times_menace = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_AUTHOR_OF_GOTHIC_TALES.name, 'antiquity times menace'))
model.AddMultiplicationEquality(antiquity_times_menace, [antiquity, menace])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.AN_AUTHOR_OF_GOTHIC_TALES.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder + 250).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
model.Add(secondary_revenue == 250*antiquity_times_menace + 250*(menace if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY else 0)).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
model.Add(difficulty_level == 75*implausibility).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_AUTHOR_OF_GOTHIC_TALES.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, antiquity_times_menace, 20)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.AN_AUTHOR_OF_GOTHIC_TALES])
del antiquity_times_menace, value_remainder, derived_exhaustion
# A Zailor with Particular Interests
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
model.Add(antiquity > 0).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
model.Add(amalgamy > 0).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
amalgamy_times_antiquity = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS.name, 'amalgamy times antiquity'))
model.AddMultiplicationEquality(amalgamy_times_antiquity, [amalgamy, antiquity])
value_remainder = model.NewIntVar(0, 9, '{}: {}'.format(Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 10)
model.Add(primary_revenue == value - value_remainder + 250).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
model.Add(secondary_revenue == 250*amalgamy_times_antiquity + 250*(amalgamy if BONE_MARKET_FLUCTUATIONS == Fluctuation.ANTIQUITY else antiquity if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY else 0)).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
model.Add(difficulty_level == 75*implausibility).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, amalgamy_times_antiquity, 20)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.A_ZAILOR_WITH_PARTICULAR_INTERESTS])
del amalgamy_times_antiquity, value_remainder, derived_exhaustion
# A Rubbery Collector
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
model.Add(amalgamy > 0).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
model.Add(menace > 0).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
amalgamy_times_menace = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_RUBBERY_COLLECTOR.name, 'amalgamy times menace'))
model.AddMultiplicationEquality(amalgamy_times_menace, [amalgamy, menace])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.A_RUBBERY_COLLECTOR.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder + 250).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
model.Add(secondary_revenue == 250*amalgamy_times_menace + 250*(menace if BONE_MARKET_FLUCTUATIONS == Fluctuation.AMALGAMY else 0)).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
model.Add(difficulty_level == 75*implausibility).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.A_RUBBERY_COLLECTOR.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, amalgamy_times_menace, 20)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.A_RUBBERY_COLLECTOR])
del amalgamy_times_menace, value_remainder, derived_exhaustion
# A Constable
model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([110, 119])).OnlyEnforceIf(actions[Buyer.A_CONSTABLE])
value_remainder = model.NewIntVar(0, 49, '{}: {}'.format(Buyer.A_CONSTABLE.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 50)
model.Add(primary_revenue == value - value_remainder + 1000).OnlyEnforceIf(actions[Buyer.A_CONSTABLE])
model.Add(secondary_revenue == 0).OnlyEnforceIf(actions[Buyer.A_CONSTABLE])
model.Add(difficulty_level == 50*implausibility).OnlyEnforceIf(actions[Buyer.A_CONSTABLE])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_CONSTABLE])
del value_remainder
# An Enthusiast in Skulls
model.Add(skeleton_in_progress >= 100).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
model.Add(skulls >= 2).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
extra_skulls = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_ENTHUSIAST_IN_SKULLS.name, 'extra skulls'))
model.Add(extra_skulls == skulls - 1).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
vital_intelligence = model.NewIntVar(cp_model.INT32_MIN, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_ENTHUSIAST_IN_SKULLS.name, 'vital intelligence'))
model.AddApproximateExponentiationEquality(vital_intelligence, extra_skulls, 1.8, MAXIMUM_ATTRIBUTE)
model.Add(primary_revenue == value).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
model.Add(secondary_revenue == 1250*vital_intelligence).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
model.Add(difficulty_level == 60*implausibility).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
# The indirection is necessary for applying an enforcement literal
derived_exhaustion = model.NewIntVar(0, cp_model.INT32_MAX, '{}: {}'.format(Buyer.AN_ENTHUSIAST_IN_SKULLS.name, 'derived exhaustion'))
model.AddDivisionEquality(derived_exhaustion, vital_intelligence, 4)
model.Add(added_exhaustion == derived_exhaustion).OnlyEnforceIf(actions[Buyer.AN_ENTHUSIAST_IN_SKULLS])
del extra_skulls, vital_intelligence, derived_exhaustion
# A Dreary Midnighter
model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([110, 299])).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
model.Add(amalgamy <= 0).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
model.Add(counter_church <= 0).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
value_remainder = model.NewIntVar(0, 2, '{}: {}'.format(Buyer.A_DREARY_MIDNIGHTER.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 3)
model.Add(primary_revenue == value - value_remainder + 300).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
model.Add(secondary_revenue == 250).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
model.Add(difficulty_level == 100*implausibility).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.A_DREARY_MIDNIGHTER])
del value_remainder
# The Dumbwaiter of Balmoral
model.AddLinearExpressionInDomain(skeleton_in_progress, cp_model.Domain.FromFlatIntervals([180, 189])).OnlyEnforceIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL])
model.Add(value >= 250).OnlyEnforceIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL])
value_remainder = model.NewIntVar(0, 249, '{}: {}'.format(Buyer.THE_DUMBWAITER_OF_BALMORAL.name, 'value remainder'))
model.AddModuloEquality(value_remainder, value, 250)
model.Add(primary_revenue == value - value_remainder).OnlyEnforceIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL])
model.Add(secondary_revenue == 0).OnlyEnforceIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL])
model.Add(difficulty_level == 200).OnlyEnforceIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL])
model.Add(added_exhaustion == 0).OnlyEnforceIf(actions[Buyer.THE_DUMBWAITER_OF_BALMORAL])
del value_remainder
# Maximize profit margin
@ -1864,7 +1926,7 @@ def Solve():
del multiplied_net_profit, absolute_multiplied_net_profit, absolute_profit_margin, positive_net_profit
model.Maximize(profit_margin)
solver = cp_model.CpSolver()