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import os
import platform
import time
from random import randint
import pytest
#####
from interpreter import OpenInterpreter
from interpreter.terminal_interface.utils.count_tokens import (
count_messages_tokens,
count_tokens,
)
interpreter = OpenInterpreter()
#####
import threading
import time
import pytest
from websocket import create_connection
def test_ai_chat():
print(interpreter.computer.ai.chat("hi"))
def test_generator():
"""
Sends two messages, makes sure everything is correct with display both on and off.
"""
interpreter.llm.model = "gpt-4"
for tests in [
{"query": "What's 38023*40334? Use Python", "display": True},
{"query": "What's 2334*34335555? Use Python", "display": True},
{"query": "What's 3545*22? Use Python", "display": False},
{"query": "What's 0.0021*3433335555? Use Python", "display": False},
]:
assistant_message_found = False
console_output_found = False
active_line_found = False
flag_checker = []
for chunk in interpreter.chat(
tests["query"]
+ "\nNo talk or plan, just immediately code, then tell me the answer.",
stream=True,
display=True,
):
print(chunk)
# Check if chunk has the right schema
assert "role" in chunk, "Chunk missing 'role'"
assert "type" in chunk, "Chunk missing 'type'"
if "start" not in chunk and "end" not in chunk:
assert "content" in chunk, "Chunk missing 'content'"
if "format" in chunk:
assert isinstance(chunk["format"], str), "'format' should be a string"
flag_checker.append(chunk)
# Check if assistant message, console output, and active line are found
if chunk["role"] == "assistant" and chunk["type"] == "message":
assistant_message_found = True
if chunk["role"] == "computer" and chunk["type"] == "console":
console_output_found = True
if "format" in chunk:
if (
chunk["role"] == "computer"
and chunk["type"] == "console"
and chunk["format"] == "active_line"
):
active_line_found = True
# Ensure all flags are proper
assert (
flag_checker.count(
{"role": "assistant", "type": "code", "format": "python", "start": True}
)
== 1
), "Incorrect number of 'assistant code start' flags"
assert (
flag_checker.count(
{"role": "assistant", "type": "code", "format": "python", "end": True}
)
== 1
), "Incorrect number of 'assistant code end' flags"
assert (
flag_checker.count({"role": "assistant", "type": "message", "start": True})
== 1
), "Incorrect number of 'assistant message start' flags"
assert (
flag_checker.count({"role": "assistant", "type": "message", "end": True})
== 1
), "Incorrect number of 'assistant message end' flags"
assert (
flag_checker.count({"role": "computer", "type": "console", "start": True})
== 1
), "Incorrect number of 'computer console output start' flags"
assert (
flag_checker.count({"role": "computer", "type": "console", "end": True})
== 1
), "Incorrect number of 'computer console output end' flags"
# Assert that assistant message, console output, and active line were found
assert assistant_message_found, "No assistant message was found"
assert console_output_found, "No console output was found"
assert active_line_found, "No active line was found"
@pytest.mark.skip(reason="Requires uvicorn, which we don't require by default")
def test_server():
# Start the server in a new thread
server_thread = threading.Thread(target=interpreter.server)
server_thread.start()
# Give the server a moment to start
time.sleep(2)
import asyncio
import json
import requests
import websockets
async def test_fastapi_server():
import asyncio
async with websockets.connect("ws://localhost:8000/") as websocket:
# Connect to the websocket
print("Connected to WebSocket")
# Sending POST request
post_url = "http://localhost:8000/settings"
settings = {
"model": "gpt-4o",
"messages": [
{
"role": "user",
"type": "message",
"content": "The secret word is 'crunk'.",
},
{"role": "assistant", "type": "message", "content": "Understood."},
],
"custom_instructions": "",
"auto_run": True,
}
response = requests.post(post_url, json=settings)
print("POST request sent, response:", response.json())
# Sending messages via WebSocket
await websocket.send(
json.dumps({"role": "user", "type": "message", "start": True})
)
await websocket.send(
json.dumps(
{
"role": "user",
"type": "message",
"content": "What's the secret word?",
}
)
)
await websocket.send(
json.dumps({"role": "user", "type": "message", "end": True})
)
print("WebSocket chunks sent")
# Wait for a specific response
accumulated_content = ""
while True:
message = await websocket.recv()
message_data = json.loads(message)
print("Received from WebSocket:", message_data)
if message_data.get("content"):
accumulated_content += message_data.get("content")
if message_data == {
"role": "server",
"type": "completion",
"content": "DONE",
}:
print("Received expected message from server")
break
assert "crunk" in accumulated_content
# Send another POST request
post_url = "http://localhost:8000/settings"
settings = {
"model": "gpt-4o",
"messages": [
{
"role": "user",
"type": "message",
"content": "The secret word is 'barloney'.",
},
{"role": "assistant", "type": "message", "content": "Understood."},
],
"custom_instructions": "",
"auto_run": True,
}
response = requests.post(post_url, json=settings)
print("POST request sent, response:", response.json())
# Sending messages via WebSocket
await websocket.send(
json.dumps({"role": "user", "type": "message", "start": True})
)
await websocket.send(
json.dumps(
{
"role": "user",
"type": "message",
"content": "What's the secret word?",
}
)
)
await websocket.send(
json.dumps({"role": "user", "type": "message", "end": True})
)
print("WebSocket chunks sent")
# Wait for a specific response
accumulated_content = ""
while True:
message = await websocket.recv()
message_data = json.loads(message)
print("Received from WebSocket:", message_data)
if message_data.get("content"):
accumulated_content += message_data.get("content")
if message_data == {
"role": "server",
"type": "completion",
"content": "DONE",
}:
print("Received expected message from server")
break
assert "barloney" in accumulated_content
# Get the current event loop and run the test function
loop = asyncio.get_event_loop()
loop.run_until_complete(test_fastapi_server())
# Stop the server
interpreter.uvicorn_server.should_exit = True
# Wait for the server thread to finish
server_thread.join(timeout=1)
@pytest.mark.skip(reason="Requires open-interpreter[local]")
def test_localos():
interpreter.computer.emit_images = False
interpreter.computer.view()
interpreter.computer.emit_images = True
assert False
@pytest.mark.skip(reason="Requires open-interpreter[local]")
def test_m_vision():
base64png = "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"
messages = [
{"role": "user", "type": "message", "content": "describe this image"},
{
"role": "user",
"type": "image",
"format": "base64.png",
"content": base64png,
},
]
interpreter.llm.supports_vision = False
interpreter.llm.model = "gpt-4o"
interpreter.llm.supports_functions = True
interpreter.llm.context_window = 110000
interpreter.llm.max_tokens = 4096
interpreter.force_task_completion = True
interpreter.chat(messages)
interpreter.force_task_completion = False
import time
time.sleep(10)
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_point():
# interpreter.computer.debug = True
interpreter.computer.mouse.move(icon="gear")
interpreter.computer.mouse.move(icon="refresh")
interpreter.computer.mouse.move(icon="play")
interpreter.computer.mouse.move(icon="magnifying glass")
interpreter.computer.mouse.move("Spaces:")
assert False
@pytest.mark.skip(reason="Aifs not ready")
def test_skills():
import sys
if sys.version_info[:2] == (3, 12):
print(
"skills.search is only for python 3.11 for now, because it depends on unstructured. skipping this test."
)
return
import json
interpreter.llm.model = "gpt-4o"
messages = ["USER: Hey can you search the web for me?\nAI: Sure!"]
combined_messages = "\\n".join(json.dumps(x) for x in messages[-3:])
query_msg = interpreter.chat(
f"This is the conversation so far: {combined_messages}. What is a hypothetical python function that might help resolve the user's query? Respond with nothing but the hypothetical function name exactly."
)
query = query_msg[0]["content"]
# skills_path = '/01OS/server/skills'
# interpreter.computer.skills.path = skills_path
print(interpreter.computer.skills.path)
if os.path.exists(interpreter.computer.skills.path):
for file in os.listdir(interpreter.computer.skills.path):
os.remove(os.path.join(interpreter.computer.skills.path, file))
print("Path: ", interpreter.computer.skills.path)
print("Files in the path: ")
interpreter.computer.run("python", "def testing_skilsl():\n print('hi')")
for file in os.listdir(interpreter.computer.skills.path):
print(file)
interpreter.computer.run("python", "def testing_skill():\n print('hi')")
print("Files in the path: ")
for file in os.listdir(interpreter.computer.skills.path):
print(file)
try:
skills = interpreter.computer.skills.search(query)
except ImportError:
print("Attempting to install unstructured[all-docs]")
import subprocess
subprocess.run(["pip", "install", "unstructured[all-docs]"], check=True)
skills = interpreter.computer.skills.search(query)
lowercase_skills = [skill[0].lower() + skill[1:] for skill in skills]
output = "\\n".join(lowercase_skills)
assert "testing_skilsl" in str(output)
@pytest.mark.skip(reason="Local only")
def test_browser():
interpreter.computer.api_base = "http://0.0.0.0:80/v0"
print(
interpreter.computer.browser.search("When's the next Dune showing in Seattle?")
)
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_display_api():
start = time.time()
# interpreter.computer.display.find_text("submit")
# assert False
def say(icon_name):
import subprocess
subprocess.run(["say", "-v", "Fred", icon_name])
icons = [
"Submit",
"Yes",
"Profile picture icon",
"Left arrow",
"Magnifying glass",
"star",
"record icon icon",
"age text",
"call icon icon",
"account text",
"home icon",
"settings text",
"form text",
"gear icon icon",
"trash icon",
"new folder icon",
"phone icon icon",
"home button",
"trash button icon",
"folder icon icon",
"black heart icon icon",
"white heart icon icon",
"image icon",
"[email protected] text",
]
# from random import shuffle
# shuffle(icons)
say("The test will begin in 3")
time.sleep(1)
say("2")
time.sleep(1)
say("1")
time.sleep(1)
import pyautogui
pyautogui.mouseDown()
for icon in icons:
if icon.endswith("icon icon"):
say("click the " + icon)
interpreter.computer.mouse.move(icon=icon.replace("icon icon", "icon"))
elif icon.endswith("icon"):
say("click the " + icon)
interpreter.computer.mouse.move(icon=icon.replace(" icon", ""))
elif icon.endswith("text"):
say("click " + icon)
interpreter.computer.mouse.move(icon.replace(" text", ""))
else:
say("click " + icon)
interpreter.computer.mouse.move(icon=icon)
# interpreter.computer.mouse.move(icon="caution")
# interpreter.computer.mouse.move(icon="bluetooth")
# interpreter.computer.mouse.move(icon="gear")
# interpreter.computer.mouse.move(icon="play button")
# interpreter.computer.mouse.move(icon="code icon with '>_' in it")
print(time.time() - start)
assert False
@pytest.mark.skip(reason="Server is not a stable feature")
def test_websocket_server():
# Start the server in a new thread
server_thread = threading.Thread(target=interpreter.server)
server_thread.start()
# Give the server a moment to start
time.sleep(3)
# Connect to the server
ws = create_connection("ws://localhost:8000/")
# Send the first message
ws.send(
"Hello, interpreter! What operating system are you on? Also, what time is it in Seattle?"
)
# Wait for a moment before sending the second message
time.sleep(1)
ws.send("Actually, nevermind. Thank you!")
# Receive the responses
responses = []
while True:
response = ws.recv()
print(response)
responses.append(response)
# Check the responses
assert responses # Check that some responses were received
ws.close()
@pytest.mark.skip(reason="Server is not a stable feature")
def test_i():
import requests
url = "http://localhost:8000/"
data = "Hello, interpreter! What operating system are you on? Also, what time is it in Seattle?"
headers = {"Content-Type": "text/plain"}
import threading
server_thread = threading.Thread(target=interpreter.server)
server_thread.start()
import time
time.sleep(3)
response = requests.post(url, data=data, headers=headers, stream=True)
full_response = ""
for line in response.iter_lines():
if line:
decoded_line = line.decode("utf-8")
print(decoded_line, end="", flush=True)
full_response += decoded_line
assert full_response != ""
def test_async():
interpreter.chat("Hello!", blocking=False)
print(interpreter.wait())
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_find_text_api():
start = time.time()
interpreter.computer.mouse.move(
"Left Arrow Left Arrow and a bunch of hallucinated text? or was it..."
)
# Left Arrow Left Arrow
# and a bunch of hallucinated text? or was it...
print(time.time() - start)
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_getActiveWindow():
import pywinctl
print(pywinctl.getActiveWindow())
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_notify():
interpreter.computer.os.notify("Hello")
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_get_text():
print(interpreter.computer.display.get_text_as_list_of_lists())
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_keyboard():
time.sleep(2)
interpreter.computer.keyboard.write("Hello " * 50 + "\n" + "hi" * 50)
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_get_selected_text():
print("Getting selected text")
time.sleep(1)
text = interpreter.computer.os.get_selected_text()
print(text)
assert False
@pytest.mark.skip(reason="Computer with display only + no way to fail test")
def test_display_verbose():
interpreter.computer.verbose = True
interpreter.verbose = True
interpreter.computer.mouse.move(x=500, y=500)
assert False
# this function will run before each test
# we're clearing out the messages Array so we can start fresh and reduce token usage
def setup_function():
interpreter.reset()
interpreter.llm.temperature = 0
interpreter.auto_run = True
interpreter.llm.model = "gpt-4o"
interpreter.llm.context_window = 123000
interpreter.llm.max_tokens = 4096
interpreter.llm.supports_functions = True
interpreter.verbose = False
@pytest.mark.skip(
reason="Not working consistently, I think GPT related changes? It worked recently"
)
def test_long_message():
messages = [
{
"role": "user",
"type": "message",
"content": "ALKI" * 20000
+ "\nwhat are the four characters I just sent you? dont run ANY code, just tell me the characters. DO NOT RUN CODE. DO NOT PLAN. JUST TELL ME THE CHARACTERS RIGHT NOW. ONLY respond with the 4 characters, NOTHING else. The first 4 characters of your response should be the 4 characters I sent you.",
}
]
interpreter.llm.context_window = 300
interpreter.chat(messages)
assert len(interpreter.messages) > 1
assert "A" in interpreter.messages[-1]["content"]
# this function will run after each test
# we're introducing some sleep to help avoid timeout issues with the OpenAI API
def teardown_function():
time.sleep(4)
@pytest.mark.skip(reason="Mac only + no way to fail test")
def test_spotlight():
interpreter.computer.keyboard.hotkey("command", "space")
def test_files():
messages = [
{"role": "user", "type": "message", "content": "Does this file exist?"},
{
"role": "user",
"type": "file",
"format": "path",
"content": "/Users/Killian/image.png",
},
]
interpreter.chat(messages)
@pytest.mark.skip(reason="Only 100 vision calls allowed / day!")
def test_vision():
base64png = "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"
messages = [
{"role": "user", "type": "message", "content": "describe this image"},
{
"role": "user",
"type": "image",
"format": "base64.png",
"content": base64png,
},
]
interpreter.llm.supports_vision = True
interpreter.llm.model = "gpt-4-vision-preview"
interpreter.system_message += "\nThe user will show you an image of the code you write. You can view images directly.\n\nFor HTML: This will be run STATELESSLY. You may NEVER write '<!-- previous code here... --!>' or `<!-- header will go here -->` or anything like that. It is CRITICAL TO NEVER WRITE PLACEHOLDERS. Placeholders will BREAK it. You must write the FULL HTML CODE EVERY TIME. Therefore you cannot write HTML piecemeal—write all the HTML, CSS, and possibly Javascript **in one step, in one code block**. The user will help you review it visually.\nIf the user submits a filepath, you will also see the image. The filepath and user image will both be in the user's message.\n\nIf you use `plt.show()`, the resulting image will be sent to you. However, if you use `PIL.Image.show()`, the resulting image will NOT be sent to you."
interpreter.llm.supports_functions = False
interpreter.llm.context_window = 110000
interpreter.llm.max_tokens = 4096
interpreter.force_task_completion = True
interpreter.chat(messages)
interpreter.force_task_completion = False
def test_multiple_instances():
interpreter.system_message = "i"
agent_1 = OpenInterpreter()
agent_1.system_message = "<3"
agent_2 = OpenInterpreter()
agent_2.system_message = "u"
assert interpreter.system_message == "i"
assert agent_1.system_message == "<3"
assert agent_2.system_message == "u"
def test_hello_world():
hello_world_response = "Hello, World!"
hello_world_message = f"Please reply with just the words {hello_world_response} and nothing else. Do not run code. No confirmation just the text."
messages = interpreter.chat(hello_world_message)
assert messages == [
{"role": "assistant", "type": "message", "content": hello_world_response}
]
def test_math():
# we'll generate random integers between this min and max in our math tests
min_number = randint(1, 99)
max_number = randint(1001, 9999)
n1 = randint(min_number, max_number)
n2 = randint(min_number, max_number)
test_result = n1 + n2 * (n1 - n2) / (n2 + n1)
order_of_operations_message = f"""
Please perform the calculation `{n1} + {n2} * ({n1} - {n2}) / ({n2} + {n1})` then reply with just the answer, nothing else. No confirmation. No explanation. No words. Do not use commas. Do not show your work. Just return the result of the calculation. Do not introduce the results with a phrase like \"The result of the calculation is...\" or \"The answer is...\"
Round to 2 decimal places.
""".strip()
print("loading")
messages = interpreter.chat(order_of_operations_message)
print("done")
assert str(round(test_result, 2)) in messages[-1]["content"]
def test_break_execution():
"""
Breaking from the generator while it's executing should halt the operation.
"""
code = r"""print("starting")
import time
import os
# Always create a fresh file
open('numbers.txt', 'w').close()
# Open the file in append mode
with open('numbers.txt', 'a+') as f:
# Loop through the numbers 1 to 5
for i in [1,2,3,4,5]:
# Print the number
print("adding", i, "to file")
# Append the number to the file
f.write(str(i) + '\n')
# Wait for 0.5 second
print("starting to sleep")
time.sleep(1)
# # Read the file to make sure the number is in there
# # Move the seek pointer to the start of the file
# f.seek(0)
# # Read the file content
# content = f.read()
# print("Current file content:", content)
# # Check if the current number is in the file content
# assert str(i) in content
# Move the seek pointer to the end of the file for the next append operation
f.seek(0, os.SEEK_END)
"""
print("starting to code")
for chunk in interpreter.computer.run("python", code, stream=True, display=True):
print(chunk)
if "format" in chunk and chunk["format"] == "output":
if "adding 3 to file" in chunk["content"]:
print("BREAKING")
break
time.sleep(3)
# Open the file and read its content
with open("numbers.txt", "r") as f:
content = f.read()
# Check if '1' and '5' are in the content
assert "1" in content
assert "5" not in content
def test_delayed_exec():
interpreter.chat(
"""Can you write a single block of code and execute it that prints something, then delays 1 second, then prints something else? No talk just code, execute the code. Thanks!"""
)
def test_nested_loops_and_multiple_newlines():
interpreter.chat(
"""Can you write a nested for loop in python and shell and run them? Don't forget to properly format your shell script and use semicolons where necessary. Also put 1-3 newlines between each line in the code. Only generate and execute the code. Yes, execute the code instantly! No explanations. Thanks!"""
)
def test_write_to_file():
interpreter.chat(
"""Write the word 'Washington' to a .txt file called file.txt. Instantly run the code! Save the file!"""
)
assert os.path.exists("file.txt")
interpreter.messages = [] # Just reset message history, nothing else for this test
messages = interpreter.chat(
"""Read file.txt in the current directory and tell me what's in it."""
)
assert "Washington" in messages[-1]["content"]
def test_markdown():
interpreter.chat(
"""Hi, can you test out a bunch of markdown features? Try writing a fenced code block, a table, headers, everything. DO NOT write the markdown inside a markdown code block, just write it raw."""
)
def test_reset():
# make sure that interpreter.reset() clears out the messages Array
assert interpreter.messages == []
def test_token_counter():
system_tokens = count_tokens(
text=interpreter.system_message, model=interpreter.llm.model
)
prompt = "How many tokens is this?"
prompt_tokens = count_tokens(text=prompt, model=interpreter.llm.model)
messages = [
{"role": "system", "message": interpreter.system_message}
] + interpreter.messages
system_token_test = count_messages_tokens(
messages=messages, model=interpreter.llm.model
)
system_tokens_ok = system_tokens == system_token_test[0]
messages.append({"role": "user", "message": prompt})
prompt_token_test = count_messages_tokens(
messages=messages, model=interpreter.llm.model
)
prompt_tokens_ok = system_tokens + prompt_tokens == prompt_token_test[0]
assert system_tokens_ok and prompt_tokens_ok