"""Tests for the object inspection functionality. """ #----------------------------------------------------------------------------- # Copyright (C) 2010-2011 The IPython Development Team. # # Distributed under the terms of the BSD License. # # The full license is in the file COPYING.txt, distributed with this software. #----------------------------------------------------------------------------- #----------------------------------------------------------------------------- # Imports #----------------------------------------------------------------------------- from __future__ import print_function # Stdlib imports import os import re # Third-party imports import nose.tools as nt # Our own imports from .. import oinspect from IPython.core.magic import (Magics, magics_class, line_magic, cell_magic, line_cell_magic, register_line_magic, register_cell_magic, register_line_cell_magic) from IPython.external.decorator import decorator from IPython.utils import py3compat #----------------------------------------------------------------------------- # Globals and constants #----------------------------------------------------------------------------- inspector = oinspect.Inspector() ip = get_ipython() #----------------------------------------------------------------------------- # Local utilities #----------------------------------------------------------------------------- # WARNING: since this test checks the line number where a function is # defined, if any code is inserted above, the following line will need to be # updated. Do NOT insert any whitespace between the next line and the function # definition below. THIS_LINE_NUMBER = 48 # Put here the actual number of this line def test_find_source_lines(): nt.assert_equal(oinspect.find_source_lines(test_find_source_lines), THIS_LINE_NUMBER+1) # A couple of utilities to ensure these tests work the same from a source or a # binary install def pyfile(fname): return os.path.normcase(re.sub('.py[co]$', '.py', fname)) def match_pyfiles(f1, f2): nt.assert_equal(pyfile(f1), pyfile(f2)) def test_find_file(): match_pyfiles(oinspect.find_file(test_find_file), os.path.abspath(__file__)) def test_find_file_decorated1(): @decorator def noop1(f): def wrapper(): return f(*a, **kw) return wrapper @noop1 def f(x): "My docstring" match_pyfiles(oinspect.find_file(f), os.path.abspath(__file__)) nt.assert_equal(f.__doc__, "My docstring") def test_find_file_decorated2(): @decorator def noop2(f, *a, **kw): return f(*a, **kw) @noop2 def f(x): "My docstring 2" match_pyfiles(oinspect.find_file(f), os.path.abspath(__file__)) nt.assert_equal(f.__doc__, "My docstring 2") def test_find_file_magic(): run = ip.find_line_magic('run') nt.assert_not_equal(oinspect.find_file(run), None) # A few generic objects we can then inspect in the tests below class Call(object): """This is the class docstring.""" def __init__(self, x, y=1): """This is the constructor docstring.""" def __call__(self, *a, **kw): """This is the call docstring.""" def method(self, x, z=2): """Some method's docstring""" class OldStyle: """An old-style class for testing.""" pass def f(x, y=2, *a, **kw): """A simple function.""" def g(y, z=3, *a, **kw): pass # no docstring @register_line_magic def lmagic(line): "A line magic" @register_cell_magic def cmagic(line, cell): "A cell magic" @register_line_cell_magic def lcmagic(line, cell=None): "A line/cell magic" @magics_class class SimpleMagics(Magics): @line_magic def Clmagic(self, cline): "A class-based line magic" @cell_magic def Ccmagic(self, cline, ccell): "A class-based cell magic" @line_cell_magic def Clcmagic(self, cline, ccell=None): "A class-based line/cell magic" def check_calltip(obj, name, call, docstring): """Generic check pattern all calltip tests will use""" info = inspector.info(obj, name) call_line, ds = oinspect.call_tip(info) nt.assert_equal(call_line, call) nt.assert_equal(ds, docstring) #----------------------------------------------------------------------------- # Tests #----------------------------------------------------------------------------- def test_calltip_class(): check_calltip(Call, 'Call', 'Call(x, y=1)', Call.__init__.__doc__) def test_calltip_instance(): c = Call(1) check_calltip(c, 'c', 'c(*a, **kw)', c.__call__.__doc__) def test_calltip_method(): c = Call(1) check_calltip(c.method, 'c.method', 'c.method(x, z=2)', c.method.__doc__) def test_calltip_function(): check_calltip(f, 'f', 'f(x, y=2, *a, **kw)', f.__doc__) def test_calltip_function2(): check_calltip(g, 'g', 'g(y, z=3, *a, **kw)', '') def test_calltip_builtin(): check_calltip(sum, 'sum', None, sum.__doc__) def test_calltip_line_magic(): check_calltip(lmagic, 'lmagic', 'lmagic(line)', "A line magic") def test_calltip_cell_magic(): check_calltip(cmagic, 'cmagic', 'cmagic(line, cell)', "A cell magic") def test_calltip_line_magic(): check_calltip(lcmagic, 'lcmagic', 'lcmagic(line, cell=None)', "A line/cell magic") def test_class_magics(): cm = SimpleMagics(ip) ip.register_magics(cm) check_calltip(cm.Clmagic, 'Clmagic', 'Clmagic(cline)', "A class-based line magic") check_calltip(cm.Ccmagic, 'Ccmagic', 'Ccmagic(cline, ccell)', "A class-based cell magic") check_calltip(cm.Clcmagic, 'Clcmagic', 'Clcmagic(cline, ccell=None)', "A class-based line/cell magic") def test_info(): "Check that Inspector.info fills out various fields as expected." i = inspector.info(Call, oname='Call') nt.assert_equal(i['type_name'], 'type') expted_class = str(type(type)) # (Python 3) or nt.assert_equal(i['base_class'], expted_class) nt.assert_equal(i['string_form'], "") fname = __file__ if fname.endswith(".pyc"): fname = fname[:-1] # case-insensitive comparison needed on some filesystems # e.g. Windows: nt.assert_equal(i['file'].lower(), fname.lower()) nt.assert_equal(i['definition'], 'Call(self, *a, **kw)\n') nt.assert_equal(i['docstring'], Call.__doc__) nt.assert_equal(i['source'], None) nt.assert_true(i['isclass']) nt.assert_equal(i['init_definition'], "Call(self, x, y=1)\n") nt.assert_equal(i['init_docstring'], Call.__init__.__doc__) i = inspector.info(Call, detail_level=1) nt.assert_not_equal(i['source'], None) nt.assert_equal(i['docstring'], None) c = Call(1) c.__doc__ = "Modified instance docstring" i = inspector.info(c) nt.assert_equal(i['type_name'], 'Call') nt.assert_equal(i['docstring'], "Modified instance docstring") nt.assert_equal(i['class_docstring'], Call.__doc__) nt.assert_equal(i['init_docstring'], Call.__init__.__doc__) nt.assert_equal(i['call_docstring'], c.__call__.__doc__) # Test old-style classes, which for example may not have an __init__ method. if not py3compat.PY3: i = inspector.info(OldStyle) nt.assert_equal(i['type_name'], 'classobj') i = inspector.info(OldStyle()) nt.assert_equal(i['type_name'], 'instance') nt.assert_equal(i['docstring'], OldStyle.__doc__) def test_getdoc(): class A(object): """standard docstring""" pass class B(object): """standard docstring""" def getdoc(self): return "custom docstring" class C(object): """standard docstring""" def getdoc(self): return None a = A() b = B() c = C() nt.assert_equal(oinspect.getdoc(a), "standard docstring") nt.assert_equal(oinspect.getdoc(b), "custom docstring") nt.assert_equal(oinspect.getdoc(c), "standard docstring") def test_pdef(): # See gh-1914 def foo(): pass inspector.pdef(foo, 'foo') def test_pinfo_nonascii(): # See gh-1177 from . import nonascii2 ip.user_ns['nonascii2'] = nonascii2 ip._inspect('pinfo', 'nonascii2', detail_level=1)