#!/usr/bin/env python3 import random import numpy as np import gym from gym_minigrid.register import env_list from gym_minigrid.minigrid import Grid, OBJECT_TO_IDX # Test specifically importing a specific environment from gym_minigrid.envs import DoorKeyEnv # Test importing wrappers from gym_minigrid.wrappers import * ############################################################################## print('%d environments registered' % len(env_list)) for env_idx, env_name in enumerate(env_list): print('testing {} ({}/{})'.format(env_name, env_idx+1, len(env_list))) # Load the gym environment env = gym.make(env_name) env.max_steps = min(env.max_steps, 200) env.reset() env.render('rgb_array') # Verify that the same seed always produces the same environment for i in range(0, 5): seed = 1337 + i env.seed(seed) grid1 = env.grid env.seed(seed) grid2 = env.grid assert grid1 == grid2 env.reset() # Run for a few episodes num_episodes = 0 while num_episodes < 5: # Pick a random action action = random.randint(0, env.action_space.n - 1) obs, reward, done, info = env.step(action) # Validate the agent position assert env.agent_pos[0] < env.width assert env.agent_pos[1] < env.height # Test observation encode/decode roundtrip img = obs['image'] grid, vis_mask = Grid.decode(img) img2 = grid.encode(vis_mask=vis_mask) assert np.array_equal(img, img2) # Test the env to string function str(env) # Check that the reward is within the specified range assert reward >= env.reward_range[0], reward assert reward <= env.reward_range[1], reward if done: num_episodes += 1 env.reset() env.render('rgb_array') # Test the close method env.close() env = gym.make(env_name) env = ReseedWrapper(env) for _ in range(10): env.reset() env.step(0) env.close() env = gym.make(env_name) env = ImgObsWrapper(env) env.reset() env.step(0) env.close() # Test the fully observable wrapper env = gym.make(env_name) env = FullyObsWrapper(env) env.reset() obs, _, _, _ = env.step(0) assert obs['image'].shape == env.observation_space.spaces['image'].shape env.close() # RGB image observation wrapper env = gym.make(env_name) env = RGBImgPartialObsWrapper(env) env.reset() obs, _, _, _ = env.step(0) assert obs['image'].mean() > 0 env.close() env = gym.make(env_name) env = FlatObsWrapper(env) env.reset() env.step(0) env.close() env = gym.make(env_name) env = ViewSizeWrapper(env, 5) env.reset() env.step(0) env.close() # Test the wrappers return proper observation spaces. wrappers = [ RGBImgObsWrapper, RGBImgPartialObsWrapper, OneHotPartialObsWrapper ] for wrapper in wrappers: env = wrapper(gym.make(env_name)) obs_space, wrapper_name = env.observation_space, wrapper.__name__ assert isinstance( obs_space, spaces.Dict ), "Observation space for {0} is not a Dict: {1}.".format( wrapper_name, obs_space ) # This should not fail either ImgObsWrapper(env) env.reset() env.step(0) env.close() ############################################################################## print('testing agent_sees method') env = gym.make('MiniGrid-DoorKey-6x6-v0') goal_pos = (env.grid.width - 2, env.grid.height - 2) # Test the "in" operator on grid objects assert ('green', 'goal') in env.grid assert ('blue', 'key') not in env.grid # Test the env.agent_sees() function env.reset() for i in range(0, 500): action = random.randint(0, env.action_space.n - 1) obs, reward, done, info = env.step(action) grid, _ = Grid.decode(obs['image']) goal_visible = ('green', 'goal') in grid agent_sees_goal = env.agent_sees(*goal_pos) assert agent_sees_goal == goal_visible if done: env.reset()