# -*- coding: utf-8 -*- # tag: ipython """Tests for the Cython magics extension.""" from __future__ import absolute_import import os import sys from contextlib import contextmanager from Cython.Build import IpythonMagic from Cython.TestUtils import CythonTest try: import IPython.testing.globalipapp from IPython.utils import py3compat except ImportError: # Disable tests and fake helpers for initialisation below. class _py3compat(object): def str_to_unicode(self, s): return s py3compat = _py3compat() def skip_if_not_installed(_): return None else: def skip_if_not_installed(c): return c try: # disable IPython history thread before it gets started to avoid having to clean it up from IPython.core.history import HistoryManager HistoryManager.enabled = False except ImportError: pass code = py3compat.str_to_unicode("""\ def f(x): return 2*x """) cython3_code = py3compat.str_to_unicode("""\ def f(int x): return 2 / x def call(x): return f(*(x,)) """) pgo_cython3_code = cython3_code + py3compat.str_to_unicode("""\ def main(): for _ in range(100): call(5) main() """) if sys.platform == 'win32': # not using IPython's decorators here because they depend on "nose" try: from unittest import skip as skip_win32 except ImportError: # poor dev's silent @unittest.skip() def skip_win32(dummy): def _skip_win32(func): return None return _skip_win32 else: def skip_win32(dummy): def _skip_win32(func): def wrapper(*args, **kwargs): func(*args, **kwargs) return wrapper return _skip_win32 @skip_if_not_installed class TestIPythonMagic(CythonTest): @classmethod def setUpClass(cls): CythonTest.setUpClass() cls._ip = IPython.testing.globalipapp.get_ipython() def setUp(self): CythonTest.setUp(self) self._ip.extension_manager.load_extension('cython') def test_cython_inline(self): ip = self._ip ip.ex('a=10; b=20') result = ip.run_cell_magic('cython_inline', '', 'return a+b') self.assertEqual(result, 30) @skip_win32('Skip on Windows') def test_cython_pyximport(self): ip = self._ip module_name = '_test_cython_pyximport' ip.run_cell_magic('cython_pyximport', module_name, code) ip.ex('g = f(10)') self.assertEqual(ip.user_ns['g'], 20.0) ip.run_cell_magic('cython_pyximport', module_name, code) ip.ex('h = f(-10)') self.assertEqual(ip.user_ns['h'], -20.0) try: os.remove(module_name + '.pyx') except OSError: pass def test_cython(self): ip = self._ip ip.run_cell_magic('cython', '', code) ip.ex('g = f(10)') self.assertEqual(ip.user_ns['g'], 20.0) def test_cython_name(self): # The Cython module named 'mymodule' defines the function f. ip = self._ip ip.run_cell_magic('cython', '--name=mymodule', code) # This module can now be imported in the interactive namespace. ip.ex('import mymodule; g = mymodule.f(10)') self.assertEqual(ip.user_ns['g'], 20.0) def test_cython_language_level(self): # The Cython cell defines the functions f() and call(). ip = self._ip ip.run_cell_magic('cython', '', cython3_code) ip.ex('g = f(10); h = call(10)') if sys.version_info[0] < 3: self.assertEqual(ip.user_ns['g'], 2 // 10) self.assertEqual(ip.user_ns['h'], 2 // 10) else: self.assertEqual(ip.user_ns['g'], 2.0 / 10.0) self.assertEqual(ip.user_ns['h'], 2.0 / 10.0) def test_cython3(self): # The Cython cell defines the functions f() and call(). ip = self._ip ip.run_cell_magic('cython', '-3', cython3_code) ip.ex('g = f(10); h = call(10)') self.assertEqual(ip.user_ns['g'], 2.0 / 10.0) self.assertEqual(ip.user_ns['h'], 2.0 / 10.0) def test_cython2(self): # The Cython cell defines the functions f() and call(). ip = self._ip ip.run_cell_magic('cython', '-2', cython3_code) ip.ex('g = f(10); h = call(10)') self.assertEqual(ip.user_ns['g'], 2 // 10) self.assertEqual(ip.user_ns['h'], 2 // 10) @skip_win32('Skip on Windows') def test_cython3_pgo(self): # The Cython cell defines the functions f() and call(). ip = self._ip ip.run_cell_magic('cython', '-3 --pgo', pgo_cython3_code) ip.ex('g = f(10); h = call(10); main()') self.assertEqual(ip.user_ns['g'], 2.0 / 10.0) self.assertEqual(ip.user_ns['h'], 2.0 / 10.0) @skip_win32('Skip on Windows') def test_extlibs(self): ip = self._ip code = py3compat.str_to_unicode(""" from libc.math cimport sin x = sin(0.0) """) ip.user_ns['x'] = 1 ip.run_cell_magic('cython', '-l m', code) self.assertEqual(ip.user_ns['x'], 0) def test_cython_verbose(self): ip = self._ip ip.run_cell_magic('cython', '--verbose', code) ip.ex('g = f(10)') self.assertEqual(ip.user_ns['g'], 20.0) def test_cython_verbose_thresholds(self): @contextmanager def mock_distutils(): class MockLog: DEBUG = 1 INFO = 2 thresholds = [INFO] def set_threshold(self, val): self.thresholds.append(val) return self.thresholds[-2] new_log = MockLog() old_log = IpythonMagic.distutils.log try: IpythonMagic.distutils.log = new_log yield new_log finally: IpythonMagic.distutils.log = old_log ip = self._ip with mock_distutils() as verbose_log: ip.run_cell_magic('cython', '--verbose', code) ip.ex('g = f(10)') self.assertEqual(ip.user_ns['g'], 20.0) self.assertEquals([verbose_log.INFO, verbose_log.DEBUG, verbose_log.INFO], verbose_log.thresholds) with mock_distutils() as normal_log: ip.run_cell_magic('cython', '', code) ip.ex('g = f(10)') self.assertEqual(ip.user_ns['g'], 20.0) self.assertEquals([normal_log.INFO], normal_log.thresholds)