iPyMock uses GPT 3.5 turbo by browser automation and a CoSENT based model to embed English and Chinese.

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Setup iPyMock

gmail_address and gmail_password are needed for utilizing chrome automation locally.

conversation_id could be found in the url of chat.openai.com/c/<conversation_id>.

mkdir -p ~/.config/ipymock

cat << EOF > ~/.config/ipymock/config.json
{
  "email": "<gmail_address>",
  "password": "<gmail_password>",
  "conversation_id": "<conversation_id>"
}
EOF

pip install --upgrade ipymock

access_token at openai api session is needed for utilizing a backend api proxy.

mkdir -p ~/.config/ipymock

cat << EOF > ~/.config/ipymock/config.json
{
  "chat_gpt_base_url": "<chat_gpt_base_url>",
  "access_token": "<access_token>",
  "conversation_id": "<conversation_id>"
}
EOF

pip install --upgrade ipymock

Using the OpenAI Backend API from Browser Side in Jupyter Notebooks 

from ipymock.browser import start_conversation
import IPython

def ask(prompt):
    for response in start_conversation(prompt):
        IPython.display.display(IPython.core.display.Markdown(response))
        IPython.display.clear_output(wait=True)

import ipymock.browser
# 1. you could initialize chrome automation locally
ipymock.browser.init(['--headless'])
# 2. or if a proxy is deployed locally
ipymock.browser.common.chat_gpt_base_url = 'http://127.0.0.1:8080'
# 3. otherwise using a third party proxy
ipymock.browser.common.chat_gpt_base_url = 'https://.../api'
# the conversation_id which is set in config.json
print(ipymock.browser.common.conversation_id)

ask('''
what is the meaning of getting patched?
''')

Testing AutoGPT

This is the test function for AutoGPT.

import os, sys
os.chdir(os.path.expanduser('~/Auto-GPT'))
sys.path.append(os.path.expanduser('~/Auto-GPT'))

def test_auto_gpt(
    mock_openai,
    mock_openai_embed,
    reset_embed_dimension,
):
    from autogpt.main import run_auto_gpt
    run_auto_gpt(
        continuous = True,
        continuous_limit = 10000,
        ai_settings = None,
        skip_reprompt = False,
        speak = True,
        debug = False,
        gpt3only = False,
        gpt4only = True,
        memory_type = 'local',
        browser_name = 'safari',
        allow_downloads = True,
        skip_news = True,
        workspace_directory = os.path.expanduser('~/Auto-GPT/andrew_space'),
        install_plugin_deps = True,
    )
    assert True

It actually run AutoGPT by pytest mock and browser automation.

import ipymock
import ipymock.browser
import ipymock.llm
import pytest

# reset conversation_id to empty to start a new chat
ipymock.browser.common.conversation_id = ''
ipymock.browser.init()

@pytest.fixture
def reset_embed_dimension(monkeypatch):
    import autogpt.memory.local
    monkeypatch.setattr(autogpt.memory.local, 'EMBED_DIM', 1024)

ipymock.do(
    mock_openai = ipymock.browser.mock_openai,
    mock_openai_embed = ipymock.llm.mock_openai_embed,
    reset_embed_dimension = reset_embed_dimension,
    test_auto_gpt = test_auto_gpt,
)

This project is still under development and lack of documentation.

This is an article I wrote that mock openai to test autonomous robots.

The Mechanism of PyTesting the Python Testfiles 

import pluggy
pm = pluggy.PluginManager('pytest')

import _pytest.hookspec
pm.add_hookspecs(_pytest.hookspec)

import _pytest.main
pm.register(_pytest.main, 'main')

import _pytest.config
cfg = _pytest.config.get_config()
cfg.parse(args=[])
pm.hook.pytest_cmdline_main(config=cfg)

import _pytest.config
cfg = _pytest.config.get_config()
cfg.parse(args=[])
cfg.pluginmanager.hook.pytest_cmdline_main(config=cfg)

PyTesting the Python Testcases within iPyNb Runtimes 

import pytest

from datetime import datetime, timedelta


testdata = [
    (datetime(2001, 12, 12), datetime(2001, 12, 11), timedelta(1)),
    (datetime(2001, 12, 11), datetime(2001, 12, 12), timedelta(-1)),
]


def idfn(val):
    if isinstance(val, (datetime,)):
        # note this wouldn't show any hours/minutes/seconds
        return val.strftime('%Y%m%d')


@pytest.mark.parametrize('a,b,expected', testdata)
def test_timedistance_v0(a, b, expected):
    diff = a - b
    assert diff == expected


@pytest.mark.parametrize('a,b,expected', testdata, ids=['forward', 'backward'])
def test_timedistance_v1(a, b, expected):
    diff = a - b
    assert diff == expected


@pytest.mark.parametrize('a,b,expected', testdata, ids=idfn)
def test_timedistance_v2(a, b, expected):
    diff = a - b
    assert diff == expected


@pytest.mark.parametrize(
    'a,b,expected',
    [
        pytest.param(
            datetime(2001, 12, 12), datetime(2001, 12, 11), timedelta(1), id='forward'
        ),
        pytest.param(
            datetime(2001, 12, 11), datetime(2001, 12, 12), timedelta(-1), id='backward'
        ),
    ],
)
def test_timedistance_v3(a, b, expected):
    diff = a - b
    assert diff != expected

import _pytest.config
cfg = _pytest.config.get_config()
cfg.parse(args=[])

import _pytest.main
ss = _pytest.main.Session.from_config(cfg)
import _pytest.runner
ss._setupstate = _pytest.runner.SetupState()
import _pytest.fixtures
ss._fixturemanager = _pytest.fixtures.FixtureManager(ss)

import _pytest.python
import py
m = _pytest.python.Module.from_parent(parent=ss, fspath=py.path.local())

class Object(object):
    def __init__(self, **entries):
        self.__dict__.update(entries)
m.obj = Object(**globals())

import _pytest.runner
c = dict(enumerate(m.collect()))
for i in c:
    print(f'idx = {i}')
    print(_pytest.runner.call_and_report(c[i], 'setup'))
    print(_pytest.runner.call_and_report(c[i], 'call'))
    print(_pytest.runner.call_and_report(c[i], 'teardown', nextitem=c.get(i+1)))

idx = 0
<TestReport '::unittests::test_timedistance_v0[a0-b0-expected0]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v0[a0-b0-expected0]' when='call' outcome='passed'>
<TestReport '::unittests::test_timedistance_v0[a0-b0-expected0]' when='teardown' outcome='passed'>
idx = 1
<TestReport '::unittests::test_timedistance_v0[a1-b1-expected1]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v0[a1-b1-expected1]' when='call' outcome='passed'>
<TestReport '::unittests::test_timedistance_v0[a1-b1-expected1]' when='teardown' outcome='passed'>
idx = 2
<TestReport '::unittests::test_timedistance_v1[forward]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v1[forward]' when='call' outcome='passed'>
<TestReport '::unittests::test_timedistance_v1[forward]' when='teardown' outcome='passed'>
idx = 3
<TestReport '::unittests::test_timedistance_v1[backward]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v1[backward]' when='call' outcome='passed'>
<TestReport '::unittests::test_timedistance_v1[backward]' when='teardown' outcome='passed'>
idx = 4
<TestReport '::unittests::test_timedistance_v2[20011212-20011211-expected0]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v2[20011212-20011211-expected0]' when='call' outcome='passed'>
<TestReport '::unittests::test_timedistance_v2[20011212-20011211-expected0]' when='teardown' outcome='passed'>
idx = 5
<TestReport '::unittests::test_timedistance_v2[20011211-20011212-expected1]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v2[20011211-20011212-expected1]' when='call' outcome='passed'>
<TestReport '::unittests::test_timedistance_v2[20011211-20011212-expected1]' when='teardown' outcome='passed'>
idx = 6
<TestReport '::unittests::test_timedistance_v3[forward]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v3[forward]' when='call' outcome='failed'>
<TestReport '::unittests::test_timedistance_v3[forward]' when='teardown' outcome='passed'>
idx = 7
<TestReport '::unittests::test_timedistance_v3[backward]' when='setup' outcome='passed'>
<TestReport '::unittests::test_timedistance_v3[backward]' when='call' outcome='failed'>
<TestReport '::unittests::test_timedistance_v3[backward]' when='teardown' outcome='passed'>

for i, f in enumerate(m.collect()):
    print(f'idx = {i}')
    f.setup()
    f.runtest()

How to Use the Do-PyTest? 

import pytest

@pytest.fixture
def my_fixture_1(tmpdir_factory):
    return tmpdir_factory

@pytest.fixture
def my_fixture_2(tmpdir_factory):
    return tmpdir_factory

def test_fixture(my_fixture_1, my_fixture_2):
    assert my_fixture_1 == my_fixture_2

from ipymock import do

do(
    my_fixture_1=my_fixture_1,
    my_fixture_2=my_fixture_2,
    test_fixture=test_fixture
)

=> no.0  nbs::test_fixture  setup  passed

=> no.0  nbs::test_fixture  runtest  passed

Troubleshooting Tips of NbDev

  • Make sure you are using the latest version of nbdev with pip install --upgrade nbdev
  • If you are using an older version of this template, see the instructions above on how to upgrade your template.
  • It is important for you to spell the name of your user and repo correctly in settings.ini or the website will not have the correct address from which to source assets like CSS for your site. When in doubt, you can open your browser's developer console and see if there are any errors related to fetching assets for your website due to an incorrect URL generated by misspelled values from settings.ini.
  • If you change the name of your repo, you have to make the appropriate changes in settings.ini
  • After you make changes to settings.ini, run nbdev_build_lib && nbdev_clean_nbs && nbdev_build_docs to make sure all changes are propagated appropriately.