The source code and dockerfile for the GSW2024 AI Lab.
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from __future__ import annotations
import numpy as np
from minigrid.core.actions import Actions
from minigrid.core.grid import Grid
from minigrid.core.mission import MissionSpace
from minigrid.core.world_object import Ball, Key, Wall
from minigrid.minigrid_env import MiniGridEnv
class MemoryEnv(MiniGridEnv):
"""
## Description
This environment is a memory test. The agent starts in a small room where it
sees an object. It then has to go through a narrow hallway which ends in a
split. At each end of the split there is an object, one of which is the same
as the object in the starting room. The agent has to remember the initial
object, and go to the matching object at split.
## Mission Space
"go to the matching object at the end of the hallway"
## Action Space
| Num | Name | Action |
|-----|--------------|---------------------------|
| 0 | left | Turn left |
| 1 | right | Turn right |
| 2 | forward | Move forward |
| 3 | pickup | Pick up an object |
| 4 | drop | Unused |
| 5 | toggle | Toggle/activate an object |
| 6 | done | Unused |
## Observation Encoding
- Each tile is encoded as a 3 dimensional tuple:
`(OBJECT_IDX, COLOR_IDX, STATE)`
- `OBJECT_TO_IDX` and `COLOR_TO_IDX` mapping can be found in
[minigrid/minigrid.py](minigrid/minigrid.py)
- `STATE` refers to the door state with 0=open, 1=closed and 2=locked
## Rewards
A reward of '1 - 0.9 * (step_count / max_steps)' is given for success, and '0' for failure.
## Termination
The episode ends if any one of the following conditions is met:
1. The agent reaches the correct matching object.
2. The agent reaches the wrong matching object.
3. Timeout (see `max_steps`).
## Registered Configurations
S: size of map SxS.
- `MiniGrid-MemoryS17Random-v0`
- `MiniGrid-MemoryS13Random-v0`
- `MiniGrid-MemoryS13-v0`
- `MiniGrid-MemoryS11-v0`
"""
def __init__(
self, size=8, random_length=False, max_steps: int | None = None, **kwargs
):
self.size = size
self.random_length = random_length
if max_steps is None:
max_steps = 5 * size**2
mission_space = MissionSpace(mission_func=self._gen_mission)
super().__init__(
mission_space=mission_space,
width=size,
height=size,
# Set this to True for maximum speed
see_through_walls=False,
max_steps=max_steps,
**kwargs,
)
@staticmethod
def _gen_mission():
return "go to the matching object at the end of the hallway"
def _gen_grid(self, width, height):
self.grid = Grid(width, height)
# Generate the surrounding walls
self.grid.horz_wall(0, 0)
self.grid.horz_wall(0, height - 1)
self.grid.vert_wall(0, 0)
self.grid.vert_wall(width - 1, 0)
assert height % 2 == 1
upper_room_wall = height // 2 - 2
lower_room_wall = height // 2 + 2
if self.random_length:
hallway_end = self._rand_int(4, width - 2)
else:
hallway_end = width - 3
# Start room
for i in range(1, 5):
self.grid.set(i, upper_room_wall, Wall())
self.grid.set(i, lower_room_wall, Wall())
self.grid.set(4, upper_room_wall + 1, Wall())
self.grid.set(4, lower_room_wall - 1, Wall())
# Horizontal hallway
for i in range(5, hallway_end):
self.grid.set(i, upper_room_wall + 1, Wall())
self.grid.set(i, lower_room_wall - 1, Wall())
# Vertical hallway
for j in range(0, height):
if j != height // 2:
self.grid.set(hallway_end, j, Wall())
self.grid.set(hallway_end + 2, j, Wall())
# Fix the player's start position and orientation
self.agent_pos = np.array((self._rand_int(1, hallway_end + 1), height // 2))
self.agent_dir = 0
# Place objects
start_room_obj = self._rand_elem([Key, Ball])
self.grid.set(1, height // 2 - 1, start_room_obj("green"))
other_objs = self._rand_elem([[Ball, Key], [Key, Ball]])
pos0 = (hallway_end + 1, height // 2 - 2)
pos1 = (hallway_end + 1, height // 2 + 2)
self.grid.set(*pos0, other_objs[0]("green"))
self.grid.set(*pos1, other_objs[1]("green"))
# Choose the target objects
if start_room_obj == other_objs[0]:
self.success_pos = (pos0[0], pos0[1] + 1)
self.failure_pos = (pos1[0], pos1[1] - 1)
else:
self.success_pos = (pos1[0], pos1[1] - 1)
self.failure_pos = (pos0[0], pos0[1] + 1)
self.mission = "go to the matching object at the end of the hallway"
def step(self, action):
if action == Actions.pickup:
action = Actions.toggle
obs, reward, terminated, truncated, info = super().step(action)
if tuple(self.agent_pos) == self.success_pos:
reward = self._reward()
terminated = True
if tuple(self.agent_pos) == self.failure_pos:
reward = 0
terminated = True
return obs, reward, terminated, truncated, info