"""test IPython.embed_kernel()""" # Copyright (c) IPython Development Team. # Distributed under the terms of the Modified BSD License. import json import os import sys import time from contextlib import contextmanager from subprocess import PIPE, Popen from flaky import flaky from jupyter_client import BlockingKernelClient from jupyter_core import paths SETUP_TIMEOUT = 60 TIMEOUT = 15 @contextmanager def setup_kernel(cmd): """start an embedded kernel in a subprocess, and wait for it to be ready Returns ------- kernel_manager: connected KernelManager instance """ def connection_file_ready(connection_file): """Check if connection_file is a readable json file.""" if not os.path.exists(connection_file): return False try: with open(connection_file) as f: json.load(f) return True except ValueError: return False kernel = Popen([sys.executable, "-c", cmd], stdout=PIPE, stderr=PIPE, encoding="utf-8") try: connection_file = os.path.join( paths.jupyter_runtime_dir(), "kernel-%i.json" % kernel.pid, ) # wait for connection file to exist, timeout after 5s tic = time.time() while ( not connection_file_ready(connection_file) and kernel.poll() is None and time.time() < tic + SETUP_TIMEOUT ): time.sleep(0.1) # Wait 100ms for the writing to finish time.sleep(0.1) if kernel.poll() is not None: o, e = kernel.communicate() raise OSError("Kernel failed to start:\n%s" % e) if not os.path.exists(connection_file): if kernel.poll() is None: kernel.terminate() raise OSError("Connection file %r never arrived" % connection_file) client = BlockingKernelClient(connection_file=connection_file) client.load_connection_file() client.start_channels() client.wait_for_ready() try: yield client finally: client.stop_channels() finally: kernel.terminate() kernel.wait() # Make sure all the fds get closed. for attr in ["stdout", "stderr", "stdin"]: fid = getattr(kernel, attr) if fid: fid.close() @flaky(max_runs=3) def test_embed_kernel_basic(): """IPython.embed_kernel() is basically functional""" cmd = "\n".join( [ "from IPython import embed_kernel", "def go():", " a=5", ' b="hi there"', " embed_kernel()", "go()", "", ] ) with setup_kernel(cmd) as client: # oinfo a (int) client.inspect("a") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert content["found"] client.execute("c=a*2") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert content["status"] == "ok" # oinfo c (should be 10) client.inspect("c") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert content["found"] text = content["data"]["text/plain"] assert "10" in text @flaky(max_runs=3) def test_embed_kernel_namespace(): """IPython.embed_kernel() inherits calling namespace""" cmd = "\n".join( [ "from IPython import embed_kernel", "def go():", " a=5", ' b="hi there"', " embed_kernel()", "go()", "", ] ) with setup_kernel(cmd) as client: # oinfo a (int) client.inspect("a") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert content["found"] text = content["data"]["text/plain"] assert "5" in text # oinfo b (str) client.inspect("b") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert content["found"] text = content["data"]["text/plain"] assert "hi there" in text # oinfo c (undefined) client.inspect("c") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert not content["found"] @flaky(max_runs=3) def test_embed_kernel_reentrant(): """IPython.embed_kernel() can be called multiple times""" cmd = "\n".join( [ "from IPython import embed_kernel", "count = 0", "def go():", " global count", " embed_kernel()", " count = count + 1", "", "while True: go()", "", ] ) with setup_kernel(cmd) as client: for i in range(5): client.inspect("count") msg = client.get_shell_msg(timeout=TIMEOUT) content = msg["content"] assert content["found"] text = content["data"]["text/plain"] assert str(i) in text # exit from embed_kernel client.execute("get_ipython().exit_now = True") msg = client.get_shell_msg(timeout=TIMEOUT) time.sleep(0.2)