Tests: add test for 2-player-multiworlds (#2386)

* Tests: add test for all games multiworld and test for two player multiworld per game * make assertSteps behave like call_all * review improvements * fix stage calling and loc copying in accessibility * add docstrings * lttp is on the options api now * skip the all games multiworld for now. likely needs to be modified to test specific worlds * move skip to the class
2024-03-11 17:22:30 -05:00 · 2024-03-11 17:22:30 -05:00 · 078d793073
parent 5fecb7f043
commit 078d793073
3 changed files with 104 additions and 8 deletions
--- a/test/general/init.py
+++ b/test/general/init.py
@ -1,8 +1,8 @@
 from argparse import Namespace
-from typing import Optional, Tuple, Type
+from typing import List, Optional, Tuple, Type, Union

-from BaseClasses import MultiWorld, CollectionState
-from worlds.AutoWorld import call_all, World
+from BaseClasses import CollectionState, MultiWorld
+from worlds.AutoWorld import World, call_all

 gen_steps = ("generate_early", "create_regions", "create_items", "set_rules", "generate_basic", "pre_fill")

@ -18,14 +18,33 @@ def setup_solo_multiworld(
    steps through pre_fill
    :param seed: The seed to be used when creating this multiworld
    """
-    multiworld = MultiWorld(1)
-    multiworld.game[1] = world_type.game
-    multiworld.player_name = {1: "Tester"}
+    return setup_multiworld(world_type, steps, seed)
+
+
+def setup_multiworld(worlds: Union[List[Type[World]], Type[World]], steps: Tuple[str, ...] = gen_steps,
+    seed: Optional[int] = None) -> MultiWorld:
+    """
+    Creates a multiworld with a player for each provided world type, allowing duplicates, setting default options, and
+    calling the provided gen steps.
+    
+    :param worlds: type/s of worlds to generate a multiworld for
+    :param steps: gen steps that should be called before returning. Default calls through pre_fill
+    :param seed: The seed to be used when creating this multiworld
+    """
+    if not isinstance(worlds, list):
+        worlds = [worlds]
+    players = len(worlds)
+    multiworld = MultiWorld(players)
+    multiworld.game = {player: world_type.game for player, world_type in enumerate(worlds, 1)}
+    multiworld.player_name = {player: f"Tester{player}" for player in multiworld.player_ids}
    multiworld.set_seed(seed)
    multiworld.state = CollectionState(multiworld)
    args = Namespace()
-    for name, option in world_type.options_dataclass.type_hints.items():
-        setattr(args, name, {1: option.from_any(option.default)})
+    for player, world_type in enumerate(worlds, 1):
+        for key, option in world_type.options_dataclass.type_hints.items():
+            updated_options = getattr(args, key, {})
+            updated_options[player] = option.from_any(option.default)
+            setattr(args, key, updated_options)
    multiworld.set_options(args)
    for step in steps:
        call_all(multiworld, step)
--- a/test/multiworld/init.py
+++ b/test/multiworld/init.py
--- a/test/multiworld/test_multiworlds.py
+++ b/test/multiworld/test_multiworlds.py
@ -0,0 +1,77 @@
+import unittest
+from typing import List, Tuple
+from unittest import TestCase
+
+from BaseClasses import CollectionState, Location, MultiWorld
+from Fill import distribute_items_restrictive
+from Options import Accessibility
+from worlds.AutoWorld import AutoWorldRegister, call_all, call_single
+from ..general import gen_steps, setup_multiworld
+
+
+class MultiworldTestBase(TestCase):
+    multiworld: MultiWorld
+
+    # similar to the implementation in WorldTestBase.test_fill
+    # but for multiple players and doesn't allow minimal accessibility
+    def fulfills_accessibility(self) -> bool:
+        """
+        Checks that the multiworld satisfies locations accessibility requirements, failing if all locations are cleared
+        but not beatable, or some locations are unreachable.
+        """
+        locations = [loc for loc in self.multiworld.get_locations()]
+        state = CollectionState(self.multiworld)
+        while locations:
+            sphere: List[Location] = []
+            for n in range(len(locations) - 1, -1, -1):
+                if locations[n].can_reach(state):
+                    sphere.append(locations.pop(n))
+            self.assertTrue(sphere, f"Unreachable locations: {locations}")
+            if not sphere:
+                return False
+            for location in sphere:
+                if location.item:
+                    state.collect(location.item, True, location)
+        return self.multiworld.has_beaten_game(state, 1)
+
+    def assertSteps(self, steps: Tuple[str, ...]) -> None:
+        """Calls each step individually, continuing if a step for a specific world step fails."""
+        world_types = {world.__class__ for world in self.multiworld.worlds.values()}
+        for step in steps:
+            for player, world in self.multiworld.worlds.items():
+                with self.subTest(game=world.game, step=step):
+                    call_single(self.multiworld, step, player)
+            for world_type in sorted(world_types, key=lambda world: world.__name__):
+                with self.subTest(game=world_type.game, step=f"stage_{step}"):
+                    stage_callable = getattr(world_type, f"stage_{step}", None)
+                    if stage_callable:
+                        stage_callable(self.multiworld)
+
+
+@unittest.skip("too slow for main")
+class TestAllGamesMultiworld(MultiworldTestBase):
+    def test_fills(self) -> None:
+        """Tests that a multiworld with one of every registered game world can generate."""
+        all_worlds = list(AutoWorldRegister.world_types.values())
+        self.multiworld = setup_multiworld(all_worlds, ())
+        for world in self.multiworld.worlds.values():
+            world.options.accessibility.value = Accessibility.option_locations
+        self.assertSteps(gen_steps)
+        with self.subTest("filling multiworld", seed=self.multiworld.seed):
+            distribute_items_restrictive(self.multiworld)
+            call_all(self.multiworld, "post_fill")
+            self.assertTrue(self.fulfills_accessibility(), "Collected all locations, but can't beat the game")
+
+
+class TestTwoPlayerMulti(MultiworldTestBase):
+    def test_two_player_single_game_fills(self) -> None:
+        """Tests that a multiworld of two players for each registered game world can generate."""
+        for world in AutoWorldRegister.world_types.values():
+            self.multiworld = setup_multiworld([world, world], ())
+            for world in self.multiworld.worlds.values():
+                world.options.accessibility.value = Accessibility.option_locations
+            self.assertSteps(gen_steps)
+        with self.subTest("filling multiworld", seed=self.multiworld.seed):
+            distribute_items_restrictive(self.multiworld)
+            call_all(self.multiworld, "post_fill")
+            self.assertTrue(self.fulfills_accessibility(), "Collected all locations, but can't beat the game")