Archipelago/worlds/stardew_valley/test/mods/TestMods.py

import random

from BaseClasses import get_seed
from .. import setup_solo_multiworld, SVTestBase, SVTestCase, allsanity_options_without_mods, allsanity_options_with_mods, complete_options_with_default
from ..assertion import ModAssertMixin, WorldAssertMixin
from ... import items, Group, ItemClassification
from ... import options
from ...items import items_by_group
from ...mods.mod_data import all_mods
from ...regions import RandomizationFlag, randomize_connections, create_final_connections_and_regions


class TestGenerateModsOptions(WorldAssertMixin, ModAssertMixin, SVTestCase):

    def test_given_single_mods_when_generate_then_basic_checks(self):
        for mod in all_mods:
            with self.solo_world_sub_test(f"Mod: {mod}", {options.Mods: mod}, dirty_state=True) as (multi_world, _):
                self.assert_basic_checks(multi_world)
                self.assert_stray_mod_items(mod, multi_world)

    def test_given_mod_names_when_generate_paired_with_entrance_randomizer_then_basic_checks(self):
        for option in options.EntranceRandomization.options:
            for mod in all_mods:
                world_options = {
                    options.EntranceRandomization.internal_name: options.EntranceRandomization.options[option],
                    options.Mods: mod
                }
                with self.solo_world_sub_test(f"entrance_randomization: {option}, Mod: {mod}", world_options, dirty_state=True) as (multi_world, _):
                    self.assert_basic_checks(multi_world)
                    self.assert_stray_mod_items(mod, multi_world)

    def test_allsanity_all_mods_when_generate_then_basic_checks(self):
        with self.solo_world_sub_test(world_options=allsanity_options_with_mods(), dirty_state=True) as (multi_world, _):
            self.assert_basic_checks(multi_world)

    def test_allsanity_all_mods_exclude_island_when_generate_then_basic_checks(self):
        world_options = allsanity_options_with_mods()
        world_options.update({options.ExcludeGingerIsland.internal_name: options.ExcludeGingerIsland.option_true})
        with self.solo_world_sub_test(world_options=world_options, dirty_state=True) as (multi_world, _):
            self.assert_basic_checks(multi_world)


class TestBaseLocationDependencies(SVTestBase):
    options = {
        options.Mods.internal_name: all_mods,
        options.ToolProgression.internal_name: options.ToolProgression.option_progressive,
        options.SeasonRandomization.internal_name: options.SeasonRandomization.option_randomized
    }


class TestBaseItemGeneration(SVTestBase):
    options = {
        options.Friendsanity.internal_name: options.Friendsanity.option_all_with_marriage,
        options.SeasonRandomization.internal_name: options.SeasonRandomization.option_progressive,
        options.SpecialOrderLocations.internal_name: options.SpecialOrderLocations.option_board_qi,
        options.Shipsanity.internal_name: options.Shipsanity.option_everything,
        options.Chefsanity.internal_name: options.Chefsanity.option_all,
        options.Craftsanity.internal_name: options.Craftsanity.option_all,
        options.Mods.internal_name: all_mods
    }

    def test_all_progression_items_are_added_to_the_pool(self):
        all_created_items = [item.name for item in self.multiworld.itempool]
        # Ignore all the stuff that the algorithm chooses one of, instead of all, to fulfill logical progression
        items_to_ignore = [event.name for event in items.events]
        items_to_ignore.extend(deprecated.name for deprecated in items.items_by_group[Group.DEPRECATED])
        items_to_ignore.extend(season.name for season in items.items_by_group[Group.SEASON])
        items_to_ignore.extend(weapon.name for weapon in items.items_by_group[Group.WEAPON])
        items_to_ignore.extend(baby.name for baby in items.items_by_group[Group.BABY])
        items_to_ignore.extend(resource_pack.name for resource_pack in items.items_by_group[Group.RESOURCE_PACK])
        items_to_ignore.append("The Gateway Gazette")
        progression_items = [item for item in items.all_items if item.classification is ItemClassification.progression
                             and item.name not in items_to_ignore]
        for progression_item in progression_items:
            with self.subTest(f"{progression_item.name}"):
                self.assertIn(progression_item.name, all_created_items)


class TestNoGingerIslandModItemGeneration(SVTestBase):
    options = {
        options.Friendsanity.internal_name: options.Friendsanity.option_all_with_marriage,
        options.SeasonRandomization.internal_name: options.SeasonRandomization.option_progressive,
        options.ExcludeGingerIsland.internal_name: options.ExcludeGingerIsland.option_true,
        options.Shipsanity.internal_name: options.Shipsanity.option_everything,
        options.Chefsanity.internal_name: options.Chefsanity.option_all,
        options.Craftsanity.internal_name: options.Craftsanity.option_all,
        options.Mods.internal_name: all_mods
    }

    def test_all_progression_items_except_island_are_added_to_the_pool(self):
        all_created_items = [item.name for item in self.multiworld.itempool]
        # Ignore all the stuff that the algorithm chooses one of, instead of all, to fulfill logical progression
        items_to_ignore = [event.name for event in items.events]
        items_to_ignore.extend(deprecated.name for deprecated in items.items_by_group[Group.DEPRECATED])
        items_to_ignore.extend(season.name for season in items.items_by_group[Group.SEASON])
        items_to_ignore.extend(weapon.name for weapon in items.items_by_group[Group.WEAPON])
        items_to_ignore.extend(baby.name for baby in items.items_by_group[Group.BABY])
        items_to_ignore.extend(resource_pack.name for resource_pack in items.items_by_group[Group.RESOURCE_PACK])
        items_to_ignore.append("The Gateway Gazette")
        progression_items = [item for item in items.all_items if item.classification is ItemClassification.progression
                             and item.name not in items_to_ignore]
        for progression_item in progression_items:
            with self.subTest(f"{progression_item.name}"):
                if Group.GINGER_ISLAND in progression_item.groups:
                    self.assertNotIn(progression_item.name, all_created_items)
                else:
                    self.assertIn(progression_item.name, all_created_items)


class TestModEntranceRando(SVTestCase):

    def test_mod_entrance_randomization(self):
        for option, flag in [(options.EntranceRandomization.option_pelican_town, RandomizationFlag.PELICAN_TOWN),
                             (options.EntranceRandomization.option_non_progression, RandomizationFlag.NON_PROGRESSION),
                             (options.EntranceRandomization.option_buildings, RandomizationFlag.BUILDINGS)]:
            sv_options = complete_options_with_default({
                options.EntranceRandomization.internal_name: option,
                options.ExcludeGingerIsland.internal_name: options.ExcludeGingerIsland.option_false,
                options.Mods.internal_name: all_mods
            })
            seed = get_seed()
            rand = random.Random(seed)
            with self.subTest(option=option, flag=flag, seed=seed):
                final_connections, final_regions = create_final_connections_and_regions(sv_options)

                _, randomized_connections = randomize_connections(rand, sv_options, final_regions, final_connections)

                for connection_name in final_connections:
                    connection = final_connections[connection_name]
                    if flag in connection.flag:
                        connection_in_randomized = connection_name in randomized_connections
                        reverse_in_randomized = connection.reverse in randomized_connections
                        self.assertTrue(connection_in_randomized, f"Connection {connection_name} should be randomized but it is not in the output")
                        self.assertTrue(reverse_in_randomized, f"Connection {connection.reverse} should be randomized but it is not in the output.")

                self.assertEqual(len(set(randomized_connections.values())), len(randomized_connections.values()),
                                 f"Connections are duplicated in randomization.")


class TestModTraps(SVTestCase):
    def test_given_traps_when_generate_then_all_traps_in_pool(self):
        for value in options.TrapItems.options:
            if value == "no_traps":
                continue

            world_options = allsanity_options_without_mods()
            world_options.update({options.TrapItems.internal_name: options.TrapItems.options[value], options.Mods: "Magic"})
            multi_world = setup_solo_multiworld(world_options)
            trap_items = [item_data.name for item_data in items_by_group[Group.TRAP] if Group.DEPRECATED not in item_data.groups]
            multiworld_items = [item.name for item in multi_world.get_items()]
            for item in trap_items:
                with self.subTest(f"Option: {value}, Item: {item}"):
                    self.assertIn(item, multiworld_items)