314 lines
16 KiB
Python
314 lines
16 KiB
Python
from typing import List, Set, Dict, Tuple, Optional, Callable
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from BaseClasses import MultiWorld, Region, Entrance, Location
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from .Locations import LocationData
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from .Options import get_option_value, MissionOrder
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from .MissionTables import MissionInfo, mission_orders, vanilla_mission_req_table, alt_final_mission_locations, \
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MissionPools, vanilla_shuffle_order
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from .PoolFilter import filter_missions
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PROPHECY_CHAIN_MISSION_COUNT = 4
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VANILLA_SHUFFLED_FIRST_PROPHECY_MISSION = 21
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def create_regions(multiworld: MultiWorld, player: int, locations: Tuple[LocationData, ...], location_cache: List[Location])\
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-> Tuple[Dict[str, MissionInfo], int, str]:
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locations_per_region = get_locations_per_region(locations)
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mission_order_type = get_option_value(multiworld, player, "mission_order")
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mission_order = mission_orders[mission_order_type]
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mission_pools = filter_missions(multiworld, player)
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regions = [create_region(multiworld, player, locations_per_region, location_cache, "Menu")]
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names: Dict[str, int] = {}
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if mission_order_type == MissionOrder.option_vanilla:
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# Generating all regions and locations
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for region_name in vanilla_mission_req_table.keys():
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regions.append(create_region(multiworld, player, locations_per_region, location_cache, region_name))
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multiworld.regions += regions
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connect(multiworld, player, names, 'Menu', 'Liberation Day'),
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connect(multiworld, player, names, 'Liberation Day', 'The Outlaws',
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lambda state: state.has("Beat Liberation Day", player)),
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connect(multiworld, player, names, 'The Outlaws', 'Zero Hour',
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lambda state: state.has("Beat The Outlaws", player)),
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connect(multiworld, player, names, 'Zero Hour', 'Evacuation',
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lambda state: state.has("Beat Zero Hour", player)),
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connect(multiworld, player, names, 'Evacuation', 'Outbreak',
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lambda state: state.has("Beat Evacuation", player)),
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connect(multiworld, player, names, "Outbreak", "Safe Haven",
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 7) and
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state.has("Beat Outbreak", player)),
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connect(multiworld, player, names, "Outbreak", "Haven's Fall",
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 7) and
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state.has("Beat Outbreak", player)),
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connect(multiworld, player, names, 'Zero Hour', 'Smash and Grab',
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lambda state: state.has("Beat Zero Hour", player)),
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connect(multiworld, player, names, 'Smash and Grab', 'The Dig',
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 8) and
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state.has("Beat Smash and Grab", player)),
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connect(multiworld, player, names, 'The Dig', 'The Moebius Factor',
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 11) and
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state.has("Beat The Dig", player)),
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connect(multiworld, player, names, 'The Moebius Factor', 'Supernova',
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 14) and
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state.has("Beat The Moebius Factor", player)),
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connect(multiworld, player, names, 'Supernova', 'Maw of the Void',
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lambda state: state.has("Beat Supernova", player)),
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connect(multiworld, player, names, 'Zero Hour', "Devil's Playground",
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 4) and
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state.has("Beat Zero Hour", player)),
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connect(multiworld, player, names, "Devil's Playground", 'Welcome to the Jungle',
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lambda state: state.has("Beat Devil's Playground", player)),
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connect(multiworld, player, names, "Welcome to the Jungle", 'Breakout',
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 8) and
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state.has("Beat Welcome to the Jungle", player)),
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connect(multiworld, player, names, "Welcome to the Jungle", 'Ghost of a Chance',
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 8) and
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state.has("Beat Welcome to the Jungle", player)),
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connect(multiworld, player, names, "Zero Hour", 'The Great Train Robbery',
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lambda state: state._sc2wol_cleared_missions(multiworld, player, 6) and
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state.has("Beat Zero Hour", player)),
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connect(multiworld, player, names, 'The Great Train Robbery', 'Cutthroat',
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lambda state: state.has("Beat The Great Train Robbery", player)),
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connect(multiworld, player, names, 'Cutthroat', 'Engine of Destruction',
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lambda state: state.has("Beat Cutthroat", player)),
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connect(multiworld, player, names, 'Engine of Destruction', 'Media Blitz',
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lambda state: state.has("Beat Engine of Destruction", player)),
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connect(multiworld, player, names, 'Media Blitz', 'Piercing the Shroud',
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lambda state: state.has("Beat Media Blitz", player)),
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connect(multiworld, player, names, 'The Dig', 'Whispers of Doom',
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lambda state: state.has("Beat The Dig", player)),
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connect(multiworld, player, names, 'Whispers of Doom', 'A Sinister Turn',
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lambda state: state.has("Beat Whispers of Doom", player)),
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connect(multiworld, player, names, 'A Sinister Turn', 'Echoes of the Future',
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lambda state: state.has("Beat A Sinister Turn", player)),
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connect(multiworld, player, names, 'Echoes of the Future', 'In Utter Darkness',
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lambda state: state.has("Beat Echoes of the Future", player)),
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connect(multiworld, player, names, 'Maw of the Void', 'Gates of Hell',
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lambda state: state.has("Beat Maw of the Void", player)),
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connect(multiworld, player, names, 'Gates of Hell', 'Belly of the Beast',
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lambda state: state.has("Beat Gates of Hell", player)),
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connect(multiworld, player, names, 'Gates of Hell', 'Shatter the Sky',
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lambda state: state.has("Beat Gates of Hell", player)),
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connect(multiworld, player, names, 'Gates of Hell', 'All-In',
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lambda state: state.has('Beat Gates of Hell', player) and (
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state.has('Beat Shatter the Sky', player) or state.has('Beat Belly of the Beast', player)))
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return vanilla_mission_req_table, 29, 'All-In: Victory'
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else:
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missions = []
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remove_prophecy = mission_order_type == 1 and not get_option_value(multiworld, player, "shuffle_protoss")
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final_mission = mission_pools[MissionPools.FINAL][0]
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# Determining if missions must be removed
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mission_pool_size = sum(len(mission_pool) for mission_pool in mission_pools.values())
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removals = len(mission_order) - mission_pool_size
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# Removing entire Prophecy chain on vanilla shuffled when not shuffling protoss
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if remove_prophecy:
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removals -= PROPHECY_CHAIN_MISSION_COUNT
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# Initial fill out of mission list and marking all-in mission
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for mission in mission_order:
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# Removing extra missions if mission pool is too small
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# Also handle lower removal priority than Prophecy
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if 0 < mission.removal_priority <= removals or mission.category == 'Prophecy' and remove_prophecy \
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or (remove_prophecy and mission_order_type == MissionOrder.option_vanilla_shuffled
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and mission.removal_priority > vanilla_shuffle_order[
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VANILLA_SHUFFLED_FIRST_PROPHECY_MISSION].removal_priority
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and 0 < mission.removal_priority <= removals + PROPHECY_CHAIN_MISSION_COUNT):
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missions.append(None)
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elif mission.type == MissionPools.FINAL:
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missions.append(final_mission)
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else:
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missions.append(mission.type)
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no_build_slots = []
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easy_slots = []
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medium_slots = []
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hard_slots = []
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# Search through missions to find slots needed to fill
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for i in range(len(missions)):
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if missions[i] is None:
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continue
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if missions[i] == MissionPools.STARTER:
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no_build_slots.append(i)
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elif missions[i] == MissionPools.EASY:
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easy_slots.append(i)
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elif missions[i] == MissionPools.MEDIUM:
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medium_slots.append(i)
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elif missions[i] == MissionPools.HARD:
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hard_slots.append(i)
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# Add no_build missions to the pool and fill in no_build slots
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missions_to_add = mission_pools[MissionPools.STARTER]
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if len(no_build_slots) > len(missions_to_add):
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raise Exception("There are no valid No-Build missions. Please exclude fewer missions.")
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for slot in no_build_slots:
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filler = multiworld.random.randint(0, len(missions_to_add) - 1)
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missions[slot] = missions_to_add.pop(filler)
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# Add easy missions into pool and fill in easy slots
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missions_to_add = missions_to_add + mission_pools[MissionPools.EASY]
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if len(easy_slots) > len(missions_to_add):
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raise Exception("There are not enough Easy missions to fill the campaign. Please exclude fewer missions.")
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for slot in easy_slots:
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filler = multiworld.random.randint(0, len(missions_to_add) - 1)
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missions[slot] = missions_to_add.pop(filler)
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# Add medium missions into pool and fill in medium slots
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missions_to_add = missions_to_add + mission_pools[MissionPools.MEDIUM]
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if len(medium_slots) > len(missions_to_add):
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raise Exception("There are not enough Easy and Medium missions to fill the campaign. Please exclude fewer missions.")
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for slot in medium_slots:
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filler = multiworld.random.randint(0, len(missions_to_add) - 1)
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missions[slot] = missions_to_add.pop(filler)
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# Add hard missions into pool and fill in hard slots
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missions_to_add = missions_to_add + mission_pools[MissionPools.HARD]
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if len(hard_slots) > len(missions_to_add):
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raise Exception("There are not enough missions to fill the campaign. Please exclude fewer missions.")
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for slot in hard_slots:
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filler = multiworld.random.randint(0, len(missions_to_add) - 1)
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missions[slot] = missions_to_add.pop(filler)
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# Generating regions and locations from selected missions
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for region_name in missions:
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regions.append(create_region(multiworld, player, locations_per_region, location_cache, region_name))
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multiworld.regions += regions
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# Mapping original mission slots to shifted mission slots when missions are removed
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slot_map = []
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slot_offset = 0
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for position, mission in enumerate(missions):
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slot_map.append(position - slot_offset + 1)
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if mission is None:
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slot_offset += 1
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# Loop through missions to create requirements table and connect regions
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# TODO: Handle 'and' connections
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mission_req_table = {}
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def build_connection_rule(mission_names: List[str], missions_req: int) -> Callable:
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if len(mission_names) > 1:
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return lambda state: state.has_all({f"Beat {name}" for name in mission_names}, player) and \
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state._sc2wol_cleared_missions(multiworld, player, missions_req)
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else:
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return lambda state: state.has(f"Beat {mission_names[0]}", player) and \
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state._sc2wol_cleared_missions(multiworld, player, missions_req)
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for i, mission in enumerate(missions):
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if mission is None:
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continue
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connections = []
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all_connections = []
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for connection in mission_order[i].connect_to:
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if connection == -1:
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continue
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while missions[connection] is None:
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connection -= 1
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all_connections.append(missions[connection])
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for connection in mission_order[i].connect_to:
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required_mission = missions[connection]
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if connection == -1:
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connect(multiworld, player, names, "Menu", mission)
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else:
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if required_mission is None and not mission_order[i].completion_critical: # Drop non-critical null slots
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continue
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while required_mission is None: # Substituting null slot with prior slot
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connection -= 1
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required_mission = missions[connection]
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required_missions = [required_mission] if mission_order[i].or_requirements else all_connections
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connect(multiworld, player, names, required_mission, mission,
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build_connection_rule(required_missions, mission_order[i].number))
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connections.append(slot_map[connection])
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mission_req_table.update({mission: MissionInfo(
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vanilla_mission_req_table[mission].id, connections, mission_order[i].category,
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number=mission_order[i].number,
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completion_critical=mission_order[i].completion_critical,
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or_requirements=mission_order[i].or_requirements)})
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final_mission_id = vanilla_mission_req_table[final_mission].id
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# Changing the completion condition for alternate final missions into an event
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if final_mission != 'All-In':
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final_location = alt_final_mission_locations[final_mission]
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# Final location should be near the end of the cache
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for i in range(len(location_cache) - 1, -1, -1):
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if location_cache[i].name == final_location:
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location_cache[i].locked = True
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location_cache[i].event = True
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location_cache[i].address = None
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break
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else:
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final_location = 'All-In: Victory'
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return mission_req_table, final_mission_id, final_location
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def create_location(player: int, location_data: LocationData, region: Region,
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location_cache: List[Location]) -> Location:
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location = Location(player, location_data.name, location_data.code, region)
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location.access_rule = location_data.rule
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if id is None:
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location.event = True
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location.locked = True
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location_cache.append(location)
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return location
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def create_region(multiworld: MultiWorld, player: int, locations_per_region: Dict[str, List[LocationData]],
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location_cache: List[Location], name: str) -> Region:
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region = Region(name, player, multiworld)
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if name in locations_per_region:
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for location_data in locations_per_region[name]:
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location = create_location(player, location_data, region, location_cache)
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region.locations.append(location)
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return region
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def connect(world: MultiWorld, player: int, used_names: Dict[str, int], source: str, target: str,
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rule: Optional[Callable] = None):
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sourceRegion = world.get_region(source, player)
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targetRegion = world.get_region(target, player)
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if target not in used_names:
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used_names[target] = 1
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name = target
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else:
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used_names[target] += 1
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name = target + (' ' * used_names[target])
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connection = Entrance(player, name, sourceRegion)
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if rule:
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connection.access_rule = rule
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sourceRegion.exits.append(connection)
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connection.connect(targetRegion)
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def get_locations_per_region(locations: Tuple[LocationData, ...]) -> Dict[str, List[LocationData]]:
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per_region: Dict[str, List[LocationData]] = {}
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for location in locations:
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per_region.setdefault(location.region, []).append(location)
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return per_region
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