Grinch-AP/worlds/stardew_valley/test/__init__.py

import itertools
import logging
import os
import threading
import unittest
from contextlib import contextmanager
from typing import Dict, ClassVar, Iterable, Tuple, Optional, List, Union, Any

from BaseClasses import MultiWorld, CollectionState, get_seed, Location, Item
from test.bases import WorldTestBase
from test.general import gen_steps, setup_solo_multiworld as setup_base_solo_multiworld
from worlds.AutoWorld import call_all
from .assertion import RuleAssertMixin
from .options.utils import fill_namespace_with_default, parse_class_option_keys, fill_dataclass_with_default
from .. import StardewValleyWorld, StardewItem, StardewRule
from ..logic.time_logic import MONTH_COEFFICIENT
from ..options import StardewValleyOption, options

logger = logging.getLogger(__name__)

DEFAULT_TEST_SEED = get_seed()
logger.info(f"Default Test Seed: {DEFAULT_TEST_SEED}")


def skip_default_tests() -> bool:
    return not bool(os.environ.get("base", False))


def skip_long_tests() -> bool:
    return not bool(os.environ.get("long", False))


class SVTestCase(unittest.TestCase):
    skip_default_tests: bool = skip_default_tests()
    """Set False to not skip the base fill tests"""
    skip_long_tests: bool = skip_long_tests()
    """Set False to run tests that take long"""

    @contextmanager
    def solo_world_sub_test(self, msg: Optional[str] = None,
                            /,
                            world_options: Optional[Dict[Union[str, StardewValleyOption], Any]] = None,
                            *,
                            seed=DEFAULT_TEST_SEED,
                            world_caching=True,
                            **kwargs) -> Tuple[MultiWorld, StardewValleyWorld]:
        if msg is not None:
            msg += " "
        else:
            msg = ""
        msg += f"[Seed = {seed}]"

        with self.subTest(msg, **kwargs):
            with solo_multiworld(world_options, seed=seed, world_caching=world_caching) as (multiworld, world):
                yield multiworld, world


class SVTestBase(RuleAssertMixin, WorldTestBase, SVTestCase):
    game = "Stardew Valley"
    world: StardewValleyWorld
    player: ClassVar[int] = 1

    seed = DEFAULT_TEST_SEED

    @classmethod
    def setUpClass(cls) -> None:
        if cls is SVTestBase:
            raise unittest.SkipTest("No running tests on SVTestBase import.")

        super().setUpClass()

    def world_setup(self, *args, **kwargs):
        self.options = parse_class_option_keys(self.options)

        self.multiworld = setup_solo_multiworld(self.options, seed=self.seed)
        self.multiworld.lock.acquire()
        world = self.multiworld.worlds[self.player]

        self.original_state = self.multiworld.state.copy()
        self.original_itempool = self.multiworld.itempool.copy()
        self.unfilled_locations = self.multiworld.get_unfilled_locations(1)
        if self.constructed:
            self.world = world  # noqa

    def tearDown(self) -> None:
        self.multiworld.state = self.original_state
        self.multiworld.itempool = self.original_itempool
        for location in self.unfilled_locations:
            location.item = None

        self.multiworld.lock.release()

    @property
    def run_default_tests(self) -> bool:
        if self.skip_default_tests:
            return False
        return super().run_default_tests

    def collect_months(self, months: int) -> None:
        real_total_prog_items = self.world.total_progression_items
        percent = months * MONTH_COEFFICIENT
        self.collect("Stardrop", real_total_prog_items * 100 // percent)
        self.world.total_progression_items = real_total_prog_items

    def collect_lots_of_money(self, percent: float = 0.25):
        self.collect("Shipping Bin")
        real_total_prog_items = self.world.total_progression_items
        required_prog_items = int(round(real_total_prog_items * percent))
        self.collect("Stardrop", required_prog_items)

    def collect_all_the_money(self):
        self.collect_lots_of_money(0.95)

    def collect_everything(self):
        non_event_items = [item for item in self.multiworld.get_items() if item.code]
        for item in non_event_items:
            self.multiworld.state.collect(item)

    def collect_all_except(self, item_to_not_collect: str):
        non_event_items = [item for item in self.multiworld.get_items() if item.code]
        for item in non_event_items:
            if item.name != item_to_not_collect:
                self.multiworld.state.collect(item)

    def get_real_locations(self) -> List[Location]:
        return [location for location in self.multiworld.get_locations(self.player) if location.address is not None]

    def get_real_location_names(self) -> List[str]:
        return [location.name for location in self.get_real_locations()]

    def collect(self, item: Union[str, Item, Iterable[Item]], count: int = 1) -> Union[None, Item, List[Item]]:
        assert count > 0

        if not isinstance(item, str):
            super().collect(item)
            return

        if count == 1:
            item = self.create_item(item)
            self.multiworld.state.collect(item)
            return item

        items = []
        for i in range(count):
            item = self.create_item(item)
            self.multiworld.state.collect(item)
            items.append(item)

        return items

    def create_item(self, item: str) -> StardewItem:
        return self.world.create_item(item)

    def get_all_created_items(self) -> list[str]:
        return [item.name for item in itertools.chain(self.multiworld.get_items(), self.multiworld.precollected_items[self.player])]

    def remove_one_by_name(self, item: str) -> None:
        self.remove(self.create_item(item))

    def reset_collection_state(self) -> None:
        self.multiworld.state = self.original_state.copy()

    def assert_rule_true(self, rule: StardewRule, state: CollectionState | None = None) -> None:
        if state is None:
            state = self.multiworld.state
        super().assert_rule_true(rule, state)

    def assert_rule_false(self, rule: StardewRule, state: CollectionState | None = None) -> None:
        if state is None:
            state = self.multiworld.state
        super().assert_rule_false(rule, state)

    def assert_can_reach_location(self, location: Location | str, state: CollectionState | None = None) -> None:
        if state is None:
            state = self.multiworld.state
        super().assert_can_reach_location(location, state)

    def assert_cannot_reach_location(self, location: Location | str, state: CollectionState | None = None) -> None:
        if state is None:
            state = self.multiworld.state
        super().assert_cannot_reach_location(location, state)


pre_generated_worlds = {}


@contextmanager
def solo_multiworld(world_options: Optional[Dict[Union[str, StardewValleyOption], Any]] = None,
                    *,
                    seed=DEFAULT_TEST_SEED,
                    world_caching=True) -> Tuple[MultiWorld, StardewValleyWorld]:
    if not world_caching:
        multiworld = setup_solo_multiworld(world_options, seed, _cache={})
        yield multiworld, multiworld.worlds[1]
    else:
        multiworld = setup_solo_multiworld(world_options, seed)
        try:
            multiworld.lock.acquire()
            world = multiworld.worlds[1]

            original_state = multiworld.state.copy()
            original_itempool = multiworld.itempool.copy()
            unfilled_locations = multiworld.get_unfilled_locations(1)

            yield multiworld, world

            multiworld.state = original_state
            multiworld.itempool = original_itempool
            for location in unfilled_locations:
                location.item = None
        finally:
            multiworld.lock.release()


# Mostly a copy of test.general.setup_solo_multiworld, I just don't want to change the core.
def setup_solo_multiworld(test_options: Optional[Dict[Union[str, StardewValleyOption], str]] = None,
                          seed=DEFAULT_TEST_SEED,
                          _cache: Dict[frozenset, MultiWorld] = {},  # noqa
                          _steps=gen_steps) -> MultiWorld:
    test_options = parse_class_option_keys(test_options)

    # Yes I reuse the worlds generated between tests, its speeds the execution by a couple seconds
    # If the simple dict caching ends up taking too much memory, we could replace it with some kind of lru cache. 
    should_cache = should_cache_world(test_options)
    if should_cache:
        frozen_options = make_hashable(test_options, seed)
        cached_multi_world = search_world_cache(_cache, frozen_options)
        if cached_multi_world:
            print(f"Using cached solo multi world [Seed = {cached_multi_world.seed}] [Cache size = {len(_cache)}]")
            return cached_multi_world

    multiworld = setup_base_solo_multiworld(StardewValleyWorld, (), seed=seed)
    # print(f"Seed: {multiworld.seed}") # Uncomment to print the seed for every test

    args = fill_namespace_with_default(test_options)
    multiworld.set_options(args)

    if "start_inventory" in test_options:
        for item, amount in test_options["start_inventory"].items():
            for _ in range(amount):
                multiworld.push_precollected(multiworld.create_item(item, 1))

    for step in _steps:
        call_all(multiworld, step)

    if should_cache:
        add_to_world_cache(_cache, frozen_options, multiworld)  # noqa

    # Lock is needed for multi-threading tests
    setattr(multiworld, "lock", threading.Lock())

    return multiworld


def should_cache_world(test_options):
    if "start_inventory" in test_options:
        return False

    trap_distribution_key = "trap_distribution"
    if trap_distribution_key not in test_options:
        return True

    trap_distribution = test_options[trap_distribution_key]
    for key in trap_distribution:
        if trap_distribution[key] != options.TrapDistribution.default_weight:
            return False

    return True



def make_hashable(test_options, seed):
    return frozenset(test_options.items()).union({("seed", seed)})


def search_world_cache(cache: Dict[frozenset, MultiWorld], frozen_options: frozenset) -> Optional[MultiWorld]:
    try:
        return cache[frozen_options]
    except KeyError:
        for cached_options, multi_world in cache.items():
            if frozen_options.issubset(cached_options):
                return multi_world
        return None


def add_to_world_cache(cache: Dict[frozenset, MultiWorld], frozen_options: frozenset, multi_world: MultiWorld) -> None:
    # We could complete the key with all the default options, but that does not seem to improve performances.
    cache[frozen_options] = multi_world


def setup_multiworld(test_options: Iterable[Dict[str, int]] = None, seed=None) -> MultiWorld:  # noqa
    if test_options is None:
        test_options = []

    multiworld = MultiWorld(len(test_options))
    multiworld.player_name = {}
    multiworld.set_seed(seed)
    multiworld.state = CollectionState(multiworld)
    for i in range(1, len(test_options) + 1):
        multiworld.game[i] = StardewValleyWorld.game
        multiworld.player_name.update({i: f"Tester{i}"})
    args = fill_namespace_with_default(test_options)
    multiworld.set_options(args)

    for step in gen_steps:
        call_all(multiworld, step)

    return multiworld