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import os | |
import sys | |
import gradio as gr | |
from dataclasses import dataclass | |
from chalk import * | |
from colour import Color | |
import inspect | |
import os | |
import openai | |
from typing import List, Tuple, Optional | |
from enum import Enum | |
import io | |
from contextlib import redirect_stdout | |
import imageio | |
import tiktoken | |
import time | |
import pandas as pd | |
import csv | |
from huggingface_hub import HfApi, Repository | |
DATASET_REPO_URL = "https://huggingface.co/datasets/srush/gptworld-leaderboard" | |
HF_TOKEN = os.environ.get("HF_API") | |
DATA_FILENAME = "data.csv" | |
DATA_FILE = os.path.join("data", DATA_FILENAME) | |
openai.api_key = "" | |
tab = " " | |
repo = Repository(git_user="srush", | |
local_dir="data", clone_from=DATASET_REPO_URL, use_auth_token=HF_TOKEN | |
) | |
repo.git_pull() | |
def start2(prompt, board, api_key): | |
out = "" | |
# for chunk in openai.ChatCompletion.create( | |
# model="gpt-4", | |
# messages=[{ | |
# "role": "user", | |
# "content": prompt, | |
# }], | |
# stream=True, | |
# temperature= 0 | |
# ): | |
board = board#Game(boundary=(9, 9), key=(1, 1), flag=(2, 2), init=(0, 0), walls=[(2, 0)]) | |
actions = [Actions.DOWNRIGHT, Actions.RIGHT, Actions.DOWNRIGHT, Actions.PICKUP, Actions.DOWNRIGHT] | |
contents = example(board, actions) | |
print(contents) | |
# encoding = tiktoken.encoding_for_model("gpt-4") | |
# num_tokens = encoding.encode(string) | |
for content in contents: | |
time.sleep(0.005) | |
content = content | |
if content is not None: | |
out += content | |
print(content, end="") | |
yield out | |
yield out | |
def start(prompt, board, api_key): | |
out = "" | |
# encoding = tiktoken.encoding_for_model("gpt-4") | |
# num_tokens = encoding.encode(string) | |
content = "" | |
openai.api_key = api_key | |
for chunk in openai.ChatCompletion.create( | |
model="gpt-4", | |
messages=[{ | |
"role": "user", | |
"content": prompt, | |
}], | |
stream=True, | |
temperature= 0 | |
): | |
# for content in contents: | |
time.sleep(0.005) | |
content = chunk["choices"][0].get("delta", {}).get("content") | |
if content is not None: | |
out += content | |
print(content, end="") | |
yield out | |
yield out | |
def num_tokens_from_string(string: str, encoding_name: str="gpt-4") -> int: | |
"""Returns the number of tokens in a text string.""" | |
encoding = tiktoken.encoding_for_model(encoding_name) | |
num_tokens = len(encoding.encode(string)) | |
return num_tokens | |
# + [markdown] id="LMTjwXdD7v-I" | |
# ## Game Code | |
# | |
# This code creates a mini-game to play. It takes place on a hexagon. You are represented by a circle. You need to first pick up a key represented by a triangle. You finally need to make it to the cross to finish the game. The actions show each of the directions you can move. | |
# | |
# | |
# + id="Fv3eTRKiV2ZB" cellView="form" | |
#@title Game Code | |
# Possible Actions | |
class Actions(Enum): | |
UPRIGHT = "UR" | |
RIGHT = "R" | |
DOWNRIGHT = "DR" | |
DOWNLEFT = "DL" | |
LEFT = "L" | |
UPLEFT = "UL" | |
PICKUP = "Pickup" | |
# Movements | |
change = { | |
Actions.UPRIGHT : (-1, 1), | |
Actions.RIGHT : (0, 2), | |
Actions.DOWNRIGHT : (1, 1), | |
Actions.DOWNLEFT : (1, -1), | |
Actions.LEFT : (0, -2), | |
Actions.UPLEFT : (-1, -1), | |
Actions.PICKUP : (0, 0), | |
} | |
change_str = {action.value: change[action] for action in Actions} | |
def add(a, b): | |
return a[0] + b[0], a[1] + b[1] | |
class Board: | |
grid: List[str] | |
player_pos: Tuple[int, int] | |
flag_pos: Tuple[int, int] | |
wall_pos:List[Tuple[int, int]] | |
key_pos:Optional[Tuple[int, int]] | |
def move(self, action: Actions) -> 'Board': | |
"Move by creating a new board." | |
d_m = change[action] | |
if action == Actions.PICKUP: | |
if self.player_pos == self.key_pos: | |
return Board(self.grid, self.player_pos, self.flag_pos, self.wall_pos, None) | |
else: | |
return self | |
new_player_pos = add(self.player_pos, d_m) | |
# Out of bounds | |
if new_player_pos[0] < 0 or new_player_pos[0] >= len(self.grid): | |
return self | |
if new_player_pos[1] < 0 or new_player_pos[1] >= len(self.grid[0]): | |
return self | |
# Can't move through walls | |
if self.grid[new_player_pos[0]][new_player_pos[1]] == 'W': | |
return self | |
new_grid = [row[:] for row in self.grid] # Create a copy of the grid | |
new_grid[self.player_pos[0]][self.player_pos[1]] = '.' | |
new_grid[new_player_pos[0]][new_player_pos[1]] = '@' | |
return Board(new_grid, new_player_pos, self.flag_pos, self.wall_pos, self.key_pos) | |
def __str__(self) -> str: | |
return '\n'.join(''.join(row) for i, row in enumerate(self.grid)) | |
def create_empty_board(cls, size: Tuple[int, int], key_pos, flag_pos, init, wall_pos) -> 'Board': | |
grid = [['.' if i % 2 == j % 2 else " " for i in range(size[1])] for j in range(size[0])] | |
player_pos = init | |
flag_pos = flag_pos | |
grid[player_pos[0]][player_pos[1]] = '@' | |
grid[flag_pos[0]][flag_pos[1]] = 'P' | |
grid[key_pos[0]][key_pos[1]] = 'K' | |
for pos in wall_pos: | |
grid[pos[0]][pos[1]] = 'W' | |
return cls(grid, player_pos, flag_pos, wall_pos, key_pos) | |
class Game: | |
def __init__(self, init, flag, walls, key, boundary): | |
"Create the version of the game that the AI sees." | |
self.boundary = boundary | |
self.board = Board.create_empty_board(boundary, key, flag, init, walls) | |
self.original = self.board | |
self.actions = [] | |
def move(self, action): | |
self.board = self.board.move(action) | |
self.actions.append(action) | |
def walls(self): | |
return self.board.wall_pos | |
def won(self): | |
final = self.board | |
return final.key_pos is None and final.player_pos == final.flag_pos | |
def __repr__(self) -> str: | |
walls = ",".join(map(str, self.board.wall_pos)) | |
return f"Game(init={self.board.player_pos}, flag={self.board.flag_pos}, walls={self.board.wall_pos}, boundary={self.boundary}, key={self.board.key_pos})" | |
# This is the version of move that the AI can see. | |
def move(game, action, old_pos): | |
# ACTIONS (must be legal) | |
game.move(Actions(action)) | |
offset = change_str[action] | |
pos = (old_pos[0] + offset[0], old_pos[1] + offset[1]) | |
assert 0 <= pos[0] < game.boundary[0], "Row position out of bounds" | |
assert 0 <= pos[1] < game.boundary[1], "Col position out of bounds" | |
assert pos not in game.walls, f"Walked into wall {pos}" | |
if action == "PU": | |
assert pos == game.key, f"Not over key" | |
return pos | |
# + [markdown] id="PDOcPiQq8u_Y" | |
# We can look at the board by drawing it. | |
# + colab={"base_uri": "https://localhost:8080/", "height": 221} id="Ic7WgOTi8uF1" outputId="4dc07cb9-9e5f-4d28-d4ea-470ad4b13141" | |
#@title Drawing code | |
def draw_board(grid, num=0): | |
hex = regular_polygon(6, 1).rotate_by(1/12).line_width(0.5).fill_color(Color("white")) | |
w = hex.get_envelope().width | |
canvas = empty() | |
for r, b in enumerate(grid): | |
def show(v): | |
if v == ".": | |
return hex | |
if v == "@": | |
return hex + circle(0.35).fill_color(Color("red")) | |
if v == "P": | |
x = rectangle(0.25, 0.7).fill_color(Color("blue")).line_width(0) | |
return hex + (x.rotate_by(0.25/2) + x.rotate_by(-0.25/2)) | |
if v == "K": | |
return hex + triangle(0.75).fill_color(Color("purple")) | |
if v == "W": | |
return hex.fill_color(Color("black")) | |
if v ==" ": | |
return hex | |
row = hcat(show(v) for i, v in enumerate(b[1 if r %2 else 0::2])) | |
canvas += row.translate(w * 0.5 if r%2 else 0, 1.5 * r) | |
canvas = canvas.center_xy().frame(0.5) | |
canvas = rectangle(canvas.get_envelope().width, canvas.get_envelope().height).line_width(0.5).fill_color(Color("orange")) + canvas | |
canvas.render_svg(f"pic{num}.svg", 256) | |
return canvas | |
# + colab={"base_uri": "https://localhost:8080/", "height": 424} id="nqgPKLu0AMhU" outputId="19e4c6d0-b792-4a34-f4c4-81902974c346" | |
# game = Game(boundary=(5, 5), key=(0, 2), flag=(4, 4), init=(0, 0), walls=[(2, 2)]) | |
# display(draw_board(game.board.grid)) | |
# move(game, "DR", (0,0)) | |
# display(draw_board(game.board.grid)) | |
# + [markdown] id="PhqF9af5_jvh" | |
# ## Prompt Code | |
# | |
# The puzzle is to write prompt code to make the model accomplish this task. We have provided some scaffolding code for you. The code creates: | |
# | |
# * A header for describing the game. | |
# * A function `make_fun` that shows the AI how to move in code. | |
# * A footer to describe the final game board that you want the mode to solve. | |
# | |
# You can fill this in a watch how the model moves around. | |
# + id="jFf7TCOJaVHX" | |
#@title Make the Prompt | |
def make_fun(board, actions): | |
"This function generates python code for few-shot examples" | |
out = tab + "p = " + str(board.player_pos) | |
for i, action in enumerate(actions): | |
new_board = board.move(action) | |
out += f""" | |
# TODO ADD CODE | |
p = move(b, "{action.value}", p) # TODO ADD CODE""" | |
board = new_board | |
return out | |
def example(game, actions): | |
""" | |
This code makes a few shot example. You don't need to edit it. | |
""" | |
return f""" | |
def my_example(): | |
b = {repr(game)} | |
{make_fun(game.board, actions)} | |
return b | |
""" | |
ex = 0 | |
def prompt(game): | |
""" | |
You should fill these sections out to teach the AI how to play the game. | |
Or you may do your own thing :) | |
""" | |
print(f""" | |
# TODO: DESCRIBE THE GAME | |
# TODO: DESCRIBE THE ACTIONS | |
change_str = {change_str} | |
{inspect.getsource(move)} | |
""") | |
def example(game, actions): | |
""" | |
This code makes a few shot example. You don't need to edit it. | |
""" | |
global ex | |
ex += 1 | |
print(f""" | |
def example{ex}(): | |
b = {repr(game)} | |
{make_fun(game.board, actions)} | |
return b | |
# ------------ | |
""") | |
# Create a few shot example (you may not need this) | |
board = Game(boundary=(3, 3), key=(1, 1), flag=(2, 2), init=(0, 0), walls=[(2, 0)]) | |
actions = [Actions.DOWNRIGHT, Actions.PICKUP, Actions.DOWNRIGHT] | |
example(board, actions) | |
# Test case | |
print(f""" | |
# ---- | |
# TODO: ADD any custom example code | |
#--- | |
# TODO: FINAL description. | |
# Contraints for this function:", {repr(game)} | |
# Please fill this in with code like the examples above (do not provide a description): | |
# | |
# The following function `my_example` instantiates a GameBoard called b with these constraints. | |
""") | |
# + [markdown] id="-iecyV7nAbFT" | |
# This code lets you make a game and see the output for a prompt for that game. There are easy, medium, and hard games. | |
# + colab={"base_uri": "https://localhost:8080/"} id="cOneYFok_OMe" outputId="97080186-7322-4ba9-b500-095fb39071aa" | |
# Easy | |
easy_game = Game(boundary=(3, 3), key=(1, 1), flag=(2, 2), init=(0, 0), walls=[]) | |
# Medium | |
medium_game = Game(boundary=(5, 5), key=(3, 1), flag=(4, 4), init=(0, 0), walls=[(1, 1)]) | |
# Hard (This is the main one) | |
hard_game = Game(boundary=(8, 15), key=(3, 1), flag=(7, 13), init=(0, 0), walls=[(2, 2), (1, 1), (5, 3), (1, 11), (5, 5), (6, 6), (6, 10), (2, 6), (4, 12)]) | |
# Evil | |
evil_game = Game(boundary=(8, 15), key=(5, 1), flag=(7, 13), init=(0, 0), walls=[(2, 2), (3, 3), (4, 2), (1, 1), (2, 4), (7, 11), (5, 3), (1, 11), (5, 5), (6, 6), (6, 10), (2, 6), (4, 12)]) | |
games = {"Easy": easy_game, "Medium": medium_game, "Hard": hard_game, "Evil": evil_game} | |
# Animate the outputs as a GIF | |
def animate(l): | |
images = [] | |
for i in range(l): | |
images.append(imageio.v2.imread(f"pic{i}.png")) | |
return imageio.v2.mimsave('movie.gif', images, **{ 'duration': 0.5 }) | |
def load(inp): | |
if inp in games: | |
board = games[inp] | |
else: | |
board = eval(inp) | |
draw_board(board.board.grid, 0).render_svg("tmp.svg") | |
return ["tmp.svg"], repr(board) | |
draw_board(hard_game.board.grid, 0).render_svg("hard.svg") | |
draw_board(easy_game.board.grid, 0).render_svg("easy.svg") | |
with gr.Blocks() as app: | |
# test = gr.Code(label="test") | |
# im2 = gr.Gallery() | |
# im2.style(preview=True) | |
gr.HTML(""" | |
<center> | |
<h1>π GPTWorld π</h1> | |
<p> | |
GPTWorld is a prompting game. Your goal is to get an LLM to complete a maze. You are the red dot (π΄) need to first get the key (β²) and then reach the exit (x). The game takes place on a hexagonal grid with walls [Even rows are labeled (0,0), (0, 2), (0,4) and odd rows are labeled (1, 1), (1, 3), (1, 5)]. You play by prompting GPT to write code which solves the game on the right. | |
</p> | |
</center> | |
""") | |
with gr.Row(): | |
with gr.Column(): | |
game_desc = gr.Text(label="Game (Select one first or make your own)") | |
examples = gr.Radio(show_label=False, | |
choices=["Easy", "Medium", "Hard", "Evil"]) | |
api_key = gr.Text(label="OpenAI Key", type="password", | |
value=os.environ.get("OPENAI_API_KEY"), | |
visible=not os.environ.get("OPENAI_API_KEY")) | |
with gr.Row(): | |
start_btn = gr.Button("Prompt >") | |
cancel_btn = gr.Button("Cancel") | |
prompt = gr.Code(label="Prompt (This is for you to fill out)", language="python", lines=40, value=f""" | |
# A prompt to describe this game to the GPT model. | |
# Ideas: | |
# * Describe how the game works | |
# * Give code examples that solve similar mazes. | |
# * Give examples to explain the reasoning process | |
# You might want to do this in a separate editor and paset in. | |
# For example you might want to tell it how the moves work | |
change_str = {change_str} | |
# Or make up a clear implementation for the move function. | |
def move(board, action, old_pos): | |
# ACTIONS (must be legal) | |
board.move(action) | |
offset = change_str[action] | |
pos = (old_pos[0] + offset[0], old_pos[1] + offset[1]) | |
assert 0 <= pos[0] < board.boundary[0] | |
assert 0 <= pos[1] < board.boundary[1] | |
assert pos not in board.walls | |
if action == "Pickup": | |
assert pos == board.key | |
return pos | |
# You can also test your code on the right side to make few-shot examples. | |
# Finally use %GAME% to inject the game description above. | |
""") | |
with gr.Column(): | |
im = gr.Gallery(label="Gallery of the Game") | |
im.style(preview=True, object_fit="scale-down", columns=1, container=True) | |
msg_box = gr.Text(label="", show_label=False) | |
output = gr.Code(label="Generating Game Code (You can also edit and rerun)", language="python", value="""def my_example(): | |
b = Game(init=(0, 0), flag=(2, 2), walls= [], boundary= (3, 3), key= (1, 1)) | |
p = (0, 0) | |
# This is the code you want it to generate. | |
p = move(b, "DR", p) | |
p = move(b, "Pickup", p) | |
p = move(b, "DL", p) | |
p = move(b, "R", p) | |
return b | |
""", lines=50) | |
counter = gr.Slider(label="length", minimum=0, maximum=3000) | |
run_btn = gr.Button("Rerun ^") | |
state = gr.State() | |
examples.change(load, inputs=[examples], outputs=[im, game_desc]) | |
game_desc.submit(load, inputs=[game_desc], outputs=[im, game_desc]) | |
def run(data): | |
board = eval(data[game_desc]) #games[data[examples]] | |
inp = data[prompt].replace("%GAME%", repr(board)) | |
print(inp) | |
q = {} | |
i = 0 | |
count = 0 | |
im_ = [f"tmp.svg"] | |
state_val = None | |
yield {im: im_, counter: 0, output: "", msg_box: "", state: state_val} | |
for prefix in start(inp, board, data[api_key]): | |
ps = prefix.split("\n") | |
count += 1 | |
if len(ps) > 3 and not ps[-2].strip().startswith("#") and prefix.endswith("\n"): | |
print("rendering") | |
try: | |
exec(prefix + f"\n return b\nq['board'] = my_example({repr(board)})") | |
except AssertionError as e: | |
print("fail") | |
yield {im: [f"pic{j}.svg" for j in range(i)], counter: count, output: prefix, msg_box: f"You made an illegal move: {e}"} | |
return | |
draw_board(q["board"].board.grid, i).render_svg("tmp.svg") | |
i += 1 | |
im_ = [f"pic{j}.svg" for j in [i-1]] | |
yield {im: im_, counter: count, output: prefix} | |
else: | |
yield {im: im_, counter: count, output: prefix} | |
if q["board"].won(): | |
final_msg = "ππππππVictoryππππππ" | |
state_val = (data[prompt], prefix, count, data[examples]) | |
else: | |
final_msg = "Didn't make it" | |
yield {im: [f"pic{j}.svg" for j in range(i-1, i)], counter: count, output: prefix, | |
msg_box: final_msg, state: state_val} | |
start_prompt = start_btn.click(run, | |
inputs={prompt, game_desc, api_key, examples}, | |
outputs={im, output, counter, msg_box, state}) | |
cancel_btn.click(None, cancels=[start_prompt]) | |
def run2(data): | |
c = data[output] | |
print(c) | |
i = 0 | |
for j in range(len(c)): | |
q = {} | |
prefix = c[:j] | |
ps = prefix.split("\n") | |
if len(ps) > 3 and not ps[-2].strip().startswith("#") and prefix.endswith("\n"): | |
print("rendering", prefix) | |
exec(prefix + "\n return b\nq['board'] = my_example()") | |
draw_board(q["board"].board.grid, i) | |
i += 1 | |
animate(i) | |
out = {im: [f"pic{j}.svg" for j in range(i)]} | |
print(out) | |
return out | |
run_btn.click(run2, inputs={output}, outputs={im}) | |
gr.HTML("""<center><h2>Leaderboard</h2></center> | |
<center> | |
To submit, first run a model that gets to the end. It will output "Victory"! | |
Then come down to the bottom, type in your team name, and then click submit. | |
The score is the number of output tokens your solution takes. | |
</center> | |
""") | |
with gr.Row() as row: | |
team_name = gr.Text(label="Team Name") | |
leaderboard = gr.Button(value="Submit") | |
msg = gr.Text(label="Status") | |
leader = gr.Dataframe(pd.read_csv(DATA_FILE)[["team", "board", "count"]]) | |
def leaderfn(data): | |
if data[state] is None: | |
return {msg: "Nothing to submit"} | |
if not data[team_name]: | |
return {msg: "No team name"} | |
prompt, code, count, board = data[state] | |
repo.git_pull() | |
with open(DATA_FILE, "a") as csvfile: | |
writer = csv.DictWriter(csvfile, fieldnames=["team", "prompt", "code", "count", "board"]) | |
writer.writerow( | |
{"team": data[team_name], "prompt": prompt, "code": code, "count": count, "board": board} | |
) | |
commit_url = repo.push_to_hub() | |
leader_df = pd.read_csv(DATA_FILE)[["team", "board", "count"]] | |
leader_df = leader_df.sort_values(["board", "count"]) | |
return {msg: f"Sucess: Final score: {count} {board}", leader: leader_df} | |
leaderboard.click(fn=leaderfn, inputs={state, team_name}, outputs={msg, leader}) | |
app.queue().launch() | |
# f = io.StringIO() | |
# with redirect_stdout(f): | |
# ex = 0 | |
# prompt(game) | |
# my_prompt = f.getvalue() | |
# print(my_prompt) | |
# # + id="LONWUsBLjOHo" colab={"base_uri": "https://localhost:8080/", "height": 1000} outputId="472afd19-48c1-4924-cabd-639b5e2ad298" | |
# # Run an LLM and execute it as it runs. | |
# q = {} | |
# i = 0 | |
# for prefix in start(my_prompt): | |
# ps = prefix.split("\n") | |
# if len(ps) > 3 and not ps[-2].strip().startswith("#") and prefix.endswith("\n"): | |
# exec(prefix + "\n return b\nq['board'] = my_example()") | |
# display(draw_board(q["board"].board.grid, i)) | |
# i += 1 | |
# animate(i) | |
# display(Image("movie.gif")) | |
# # Print the number of tokens used | |
# print("Input Tokens:", num_tokens_from_string(my_prompt)) | |
# print("Output Tokens:", num_tokens_from_string(prefix)) | |