def test_corporation_speculation_little_success_last_give_money(self): """ Success when speculate on a last corpo should give money """ o = CorporationSpeculationOrder(player=self.p, corporation=self.last_corporation, rank=3, investment=5) o.save() o.resolve() self.assertEqual( self.reload(self.p).money, self.initial_money + o.get_cost() * 2)
def test_corporation_speculation_big_success_give_money(self): """ Success when speculate on a non first/last corpo should give lots of money """ o = CorporationSpeculationOrder(player=self.p, corporation=self.medium_corporation, rank=2, investment=5) o.save() o.resolve() self.assertEqual( self.reload(self.p).money, self.initial_money + o.get_cost() * 4)
def test_corporation_speculation_order_cost_money(self): """ Order should cost money """ o = CorporationSpeculationOrder(player=self.p, corporation=self.last_corporation, rank=1, investment=5) o.save() o.resolve() self.assertEqual( self.reload(self.p).money, self.initial_money - o.get_cost())
def test_corporation_speculation_little_success_last_give_money(self): """ Success when speculate on a last corpo should give money """ o = CorporationSpeculationOrder( player=self.p, corporation=self.last_corporation, rank=3, investment=5 ) o.save() o.resolve() self.assertEqual(self.reload(self.p).money, self.initial_money + o.get_cost() * 2)
def test_corporation_speculation_big_success_give_money(self): """ Success when speculate on a non first/last corpo should give lots of money """ o = CorporationSpeculationOrder( player=self.p, corporation=self.medium_corporation, rank=2, investment=5 ) o.save() o.resolve() self.assertEqual(self.reload(self.p).money, self.initial_money + o.get_cost() * 4)
def test_corporation_speculation_order_cost_money(self): """ Order should cost money """ o = CorporationSpeculationOrder( player=self.p, corporation=self.last_corporation, rank=1, investment=5 ) o.save() o.resolve() self.assertEqual(self.reload(self.p).money, self.initial_money - o.get_cost())
def test_mdc_DERE_line_positive_effect(self): """ Test what happens when the DERE party line is chosen for players who voted for it """ self.set_turn_line(MDCVoteOrder.BANK, MDCVoteOrder.DERE, MDCVoteOrder.DERE) self.g.resolve_current_turn() o = CorporationSpeculationOrder(player=self.p2, corporation=self.c, rank=1, investment=5) o.save() o.resolve() self.assertEqual(o.on_win_ratio, 3) # 2 + 1 self.assertEqual(o.on_loss_ratio, 1) # Default self.assertEqual( self.reload(self.p2).money, self.initial_money + o.investment * 3)
def test_mdc_DERE_line_positive_effect(self): """ Test what happens when the DERE party line is chosen for players who voted for it """ self.set_turn_line(MDCVoteOrder.BANK, MDCVoteOrder.DERE, MDCVoteOrder.DERE) self.g.resolve_current_turn() o = CorporationSpeculationOrder( player=self.p2, corporation=self.c, rank=1, investment=5 ) o.save() o.resolve() self.assertEqual(o.on_win_ratio, 3) # 2 + 1 self.assertEqual(o.on_loss_ratio, 1) # Default self.assertEqual(self.reload(self.p2).money, self.initial_money + o.investment * 3)
def test_mdc_BANK_line_positive_effect(self): """ Test what happens when BANK party line is chosen to people who voted it """ self.set_turn_line(MDCVoteOrder.BANK, MDCVoteOrder.BANK, MDCVoteOrder.DERE) self.c.update_assets(10) self.g.resolve_current_turn() # should fail, because c is first rank o = CorporationSpeculationOrder(player=self.p, corporation=self.c2, rank=1, investment=5) o.save() o.resolve() self.assertEqual(o.on_win_ratio, 2) # Default self.assertEqual(o.on_loss_ratio, 0) # 1 - 1 self.assertEqual(self.reload(self.p).money, self.initial_money)
def test_mdc_BANK_line_positive_effect(self): """ Test what happens when BANK party line is chosen to people who voted it """ self.set_turn_line(MDCVoteOrder.BANK, MDCVoteOrder.BANK, MDCVoteOrder.DERE) self.c.update_assets(10) self.g.resolve_current_turn() # should fail, because c is first rank o = CorporationSpeculationOrder( player=self.p, corporation=self.c2, rank=1, investment=5 ) o.save() o.resolve() self.assertEqual(o.on_win_ratio, 2) # Default self.assertEqual(o.on_loss_ratio, 0) # 1 - 1 self.assertEqual(self.reload(self.p).money, self.initial_money)