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test_inputsplitter.py
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/ IPython / core / tests / test_inputsplitter.py
# -*- coding: utf-8 -*-
"""Tests for the inputsplitter module.
Authors
-------
* Fernando Perez
* Robert Kern
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2010-2011 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
# stdlib
import unittest
import sys
# Third party
import nose.tools as nt
# Our own
from IPython.core import inputsplitter as isp
from IPython.testing import tools as tt
from IPython.utils import py3compat
#-----------------------------------------------------------------------------
# Semi-complete examples (also used as tests)
#-----------------------------------------------------------------------------
# Note: at the bottom, there's a slightly more complete version of this that
# can be useful during development of code here.
def mini_interactive_loop(input_func):
"""Minimal example of the logic of an interactive interpreter loop.
This serves as an example, and it is used by the test system with a fake
raw_input that simulates interactive input."""
from IPython.core.inputsplitter import InputSplitter
isp = InputSplitter()
# In practice, this input loop would be wrapped in an outside loop to read
# input indefinitely, until some exit/quit command was issued. Here we
# only illustrate the basic inner loop.
while isp.push_accepts_more():
indent = ' '*isp.indent_spaces
prompt = '>>> ' + indent
line = indent + input_func(prompt)
isp.push(line)
# Here we just return input so we can use it in a test suite, but a real
# interpreter would instead send it for execution somewhere.
src = isp.source_reset()
#print 'Input source was:\n', src # dbg
return src
#-----------------------------------------------------------------------------
# Test utilities, just for local use
#-----------------------------------------------------------------------------
def assemble(block):
"""Assemble a block into multi-line sub-blocks."""
return ['\n'.join(sub_block)+'\n' for sub_block in block]
def pseudo_input(lines):
"""Return a function that acts like raw_input but feeds the input list."""
ilines = iter(lines)
def raw_in(prompt):
try:
return next(ilines)
except StopIteration:
return ''
return raw_in
#-----------------------------------------------------------------------------
# Tests
#-----------------------------------------------------------------------------
def test_spaces():
tests = [('', 0),
(' ', 1),
('\n', 0),
(' \n', 1),
('x', 0),
(' x', 1),
(' x',2),
(' x',4),
# Note: tabs are counted as a single whitespace!
('\tx', 1),
('\t x', 2),
]
tt.check_pairs(isp.num_ini_spaces, tests)
def test_remove_comments():
tests = [('text', 'text'),
('text # comment', 'text '),
('text # comment\n', 'text \n'),
('text # comment \n', 'text \n'),
('line # c \nline\n','line \nline\n'),
('line # c \nline#c2 \nline\nline #c\n\n',
'line \nline\nline\nline \n\n'),
]
tt.check_pairs(isp.remove_comments, tests)
def test_has_comment():
tests = [('text', False),
('text #comment', True),
('text #comment\n', True),
('#comment', True),
('#comment\n', True),
('a = "#string"', False),
('a = "#string" # comment', True),
('a #comment not "string"', True),
]
tt.check_pairs(isp.has_comment, tests)
def test_get_input_encoding():
encoding = isp.get_input_encoding()
nt.assert_true(isinstance(encoding, basestring))
# simple-minded check that at least encoding a simple string works with the
# encoding we got.
nt.assert_equal(u'test'.encode(encoding), b'test')
class NoInputEncodingTestCase(unittest.TestCase):
def setUp(self):
self.old_stdin = sys.stdin
class X: pass
fake_stdin = X()
sys.stdin = fake_stdin
def test(self):
# Verify that if sys.stdin has no 'encoding' attribute we do the right
# thing
enc = isp.get_input_encoding()
self.assertEqual(enc, 'ascii')
def tearDown(self):
sys.stdin = self.old_stdin
class InputSplitterTestCase(unittest.TestCase):
def setUp(self):
self.isp = isp.InputSplitter()
def test_reset(self):
isp = self.isp
isp.push('x=1')
isp.reset()
self.assertEqual(isp._buffer, [])
self.assertEqual(isp.indent_spaces, 0)
self.assertEqual(isp.source, '')
self.assertEqual(isp.code, None)
self.assertEqual(isp._is_complete, False)
def test_source(self):
self.isp._store('1')
self.isp._store('2')
self.assertEqual(self.isp.source, '1\n2\n')
self.assertTrue(len(self.isp._buffer)>0)
self.assertEqual(self.isp.source_reset(), '1\n2\n')
self.assertEqual(self.isp._buffer, [])
self.assertEqual(self.isp.source, '')
def test_indent(self):
isp = self.isp # shorthand
isp.push('x=1')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n x=1')
self.assertEqual(isp.indent_spaces, 4)
isp.push('y=2\n')
self.assertEqual(isp.indent_spaces, 0)
def test_indent2(self):
# In cell mode, inputs must be fed in whole blocks, so skip this test
if self.isp.input_mode == 'cell': return
isp = self.isp
isp.push('if 1:')
self.assertEqual(isp.indent_spaces, 4)
isp.push(' x=1')
self.assertEqual(isp.indent_spaces, 4)
# Blank lines shouldn't change the indent level
isp.push(' '*2)
self.assertEqual(isp.indent_spaces, 4)
def test_indent3(self):
# In cell mode, inputs must be fed in whole blocks, so skip this test
if self.isp.input_mode == 'cell': return
isp = self.isp
# When a multiline statement contains parens or multiline strings, we
# shouldn't get confused.
isp.push("if 1:")
isp.push(" x = (1+\n 2)")
self.assertEqual(isp.indent_spaces, 4)
def test_indent4(self):
# In cell mode, inputs must be fed in whole blocks, so skip this test
if self.isp.input_mode == 'cell': return
isp = self.isp
# whitespace after ':' should not screw up indent level
isp.push('if 1: \n x=1')
self.assertEqual(isp.indent_spaces, 4)
isp.push('y=2\n')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\t\n x=1')
self.assertEqual(isp.indent_spaces, 4)
isp.push('y=2\n')
self.assertEqual(isp.indent_spaces, 0)
def test_dedent_pass(self):
isp = self.isp # shorthand
# should NOT cause dedent
isp.push('if 1:\n passes = 5')
self.assertEqual(isp.indent_spaces, 4)
isp.push('if 1:\n pass')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n pass ')
self.assertEqual(isp.indent_spaces, 0)
def test_dedent_break(self):
isp = self.isp # shorthand
# should NOT cause dedent
isp.push('while 1:\n breaks = 5')
self.assertEqual(isp.indent_spaces, 4)
isp.push('while 1:\n break')
self.assertEqual(isp.indent_spaces, 0)
isp.push('while 1:\n break ')
self.assertEqual(isp.indent_spaces, 0)
def test_dedent_continue(self):
isp = self.isp # shorthand
# should NOT cause dedent
isp.push('while 1:\n continues = 5')
self.assertEqual(isp.indent_spaces, 4)
isp.push('while 1:\n continue')
self.assertEqual(isp.indent_spaces, 0)
isp.push('while 1:\n continue ')
self.assertEqual(isp.indent_spaces, 0)
def test_dedent_raise(self):
isp = self.isp # shorthand
# should NOT cause dedent
isp.push('if 1:\n raised = 4')
self.assertEqual(isp.indent_spaces, 4)
isp.push('if 1:\n raise TypeError()')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n raise')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n raise ')
self.assertEqual(isp.indent_spaces, 0)
def test_dedent_return(self):
isp = self.isp # shorthand
# should NOT cause dedent
isp.push('if 1:\n returning = 4')
self.assertEqual(isp.indent_spaces, 4)
isp.push('if 1:\n return 5 + 493')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n return')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n return ')
self.assertEqual(isp.indent_spaces, 0)
isp.push('if 1:\n return(0)')
self.assertEqual(isp.indent_spaces, 0)
def test_push(self):
isp = self.isp
self.assertTrue(isp.push('x=1'))
def test_push2(self):
isp = self.isp
self.assertFalse(isp.push('if 1:'))
for line in [' x=1', '# a comment', ' y=2']:
self.assertTrue(isp.push(line))
def test_push3(self):
isp = self.isp
isp.push('if True:')
isp.push(' a = 1')
self.assertFalse(isp.push('b = [1,'))
def test_replace_mode(self):
isp = self.isp
isp.input_mode = 'cell'
isp.push('x=1')
self.assertEqual(isp.source, 'x=1\n')
isp.push('x=2')
self.assertEqual(isp.source, 'x=2\n')
def test_push_accepts_more(self):
isp = self.isp
isp.push('x=1')
self.assertFalse(isp.push_accepts_more())
def test_push_accepts_more2(self):
# In cell mode, inputs must be fed in whole blocks, so skip this test
if self.isp.input_mode == 'cell': return
isp = self.isp
isp.push('if 1:')
self.assertTrue(isp.push_accepts_more())
isp.push(' x=1')
self.assertTrue(isp.push_accepts_more())
isp.push('')
self.assertFalse(isp.push_accepts_more())
def test_push_accepts_more3(self):
isp = self.isp
isp.push("x = (2+\n3)")
self.assertFalse(isp.push_accepts_more())
def test_push_accepts_more4(self):
# In cell mode, inputs must be fed in whole blocks, so skip this test
if self.isp.input_mode == 'cell': return
isp = self.isp
# When a multiline statement contains parens or multiline strings, we
# shouldn't get confused.
# FIXME: we should be able to better handle de-dents in statements like
# multiline strings and multiline expressions (continued with \ or
# parens). Right now we aren't handling the indentation tracking quite
# correctly with this, though in practice it may not be too much of a
# problem. We'll need to see.
isp.push("if 1:")
isp.push(" x = (2+")
isp.push(" 3)")
self.assertTrue(isp.push_accepts_more())
isp.push(" y = 3")
self.assertTrue(isp.push_accepts_more())
isp.push('')
self.assertFalse(isp.push_accepts_more())
def test_push_accepts_more5(self):
# In cell mode, inputs must be fed in whole blocks, so skip this test
if self.isp.input_mode == 'cell': return
isp = self.isp
isp.push('try:')
isp.push(' a = 5')
isp.push('except:')
isp.push(' raise')
self.assertTrue(isp.push_accepts_more())
def test_continuation(self):
isp = self.isp
isp.push("import os, \\")
self.assertTrue(isp.push_accepts_more())
isp.push("sys")
self.assertFalse(isp.push_accepts_more())
def test_syntax_error(self):
isp = self.isp
# Syntax errors immediately produce a 'ready' block, so the invalid
# Python can be sent to the kernel for evaluation with possible ipython
# special-syntax conversion.
isp.push('run foo')
self.assertFalse(isp.push_accepts_more())
def test_unicode(self):
self.isp.push(u"Pérez")
self.isp.push(u'\xc3\xa9')
self.isp.push(u"u'\xc3\xa9'")
def test_line_continuation(self):
""" Test issue #2108."""
isp = self.isp
# A blank line after a line continuation should not accept more
isp.push("1 \\\n\n")
self.assertFalse(isp.push_accepts_more())
# Whitespace after a \ is a SyntaxError. The only way to test that
# here is to test that push doesn't accept more (as with
# test_syntax_error() above).
isp.push(r"1 \ ")
self.assertFalse(isp.push_accepts_more())
# Even if the line is continuable (c.f. the regular Python
# interpreter)
isp.push(r"(1 \ ")
self.assertFalse(isp.push_accepts_more())
class InteractiveLoopTestCase(unittest.TestCase):
"""Tests for an interactive loop like a python shell.
"""
def check_ns(self, lines, ns):
"""Validate that the given input lines produce the resulting namespace.
Note: the input lines are given exactly as they would be typed in an
auto-indenting environment, as mini_interactive_loop above already does
auto-indenting and prepends spaces to the input.
"""
src = mini_interactive_loop(pseudo_input(lines))
test_ns = {}
exec src in test_ns
# We can't check that the provided ns is identical to the test_ns,
# because Python fills test_ns with extra keys (copyright, etc). But
# we can check that the given dict is *contained* in test_ns
for k,v in ns.iteritems():
self.assertEqual(test_ns[k], v)
def test_simple(self):
self.check_ns(['x=1'], dict(x=1))
def test_simple2(self):
self.check_ns(['if 1:', 'x=2'], dict(x=2))
def test_xy(self):
self.check_ns(['x=1; y=2'], dict(x=1, y=2))
def test_abc(self):
self.check_ns(['if 1:','a=1','b=2','c=3'], dict(a=1, b=2, c=3))
def test_multi(self):
self.check_ns(['x =(1+','1+','2)'], dict(x=4))
def test_LineInfo():
"""Simple test for LineInfo construction and str()"""
linfo = isp.LineInfo(' %cd /home')
nt.assert_equal(str(linfo), 'LineInfo [ |%|cd|/home]')
# Transformer tests
def transform_checker(tests, func):
"""Utility to loop over test inputs"""
for inp, tr in tests:
nt.assert_equal(func(inp), tr)
# Data for all the syntax tests in the form of lists of pairs of
# raw/transformed input. We store it here as a global dict so that we can use
# it both within single-function tests and also to validate the behavior of the
# larger objects
syntax = \
dict(assign_system =
[(i,py3compat.u_format(o)) for i,o in \
[(u'a =! ls', "a = get_ipython().getoutput({u}'ls')"),
(u'b = !ls', "b = get_ipython().getoutput({u}'ls')"),
('x=1', 'x=1'), # normal input is unmodified
(' ',' '), # blank lines are kept intact
]],
assign_magic =
[(i,py3compat.u_format(o)) for i,o in \
[(u'a =% who', "a = get_ipython().magic({u}'who')"),
(u'b = %who', "b = get_ipython().magic({u}'who')"),
('x=1', 'x=1'), # normal input is unmodified
(' ',' '), # blank lines are kept intact
]],
classic_prompt =
[('>>> x=1', 'x=1'),
('x=1', 'x=1'), # normal input is unmodified
(' ', ' '), # blank lines are kept intact
('... ', ''), # continuation prompts
],
ipy_prompt =
[('In [1]: x=1', 'x=1'),
('x=1', 'x=1'), # normal input is unmodified
(' ',' '), # blank lines are kept intact
(' ....: ', ''), # continuation prompts
],
# Tests for the escape transformer to leave normal code alone
escaped_noesc =
[ (' ', ' '),
('x=1', 'x=1'),
],
# System calls
escaped_shell =
[(i,py3compat.u_format(o)) for i,o in \
[ (u'!ls', "get_ipython().system({u}'ls')"),
# Double-escape shell, this means to capture the output of the
# subprocess and return it
(u'!!ls', "get_ipython().getoutput({u}'ls')"),
]],
# Help/object info
escaped_help =
[(i,py3compat.u_format(o)) for i,o in \
[ (u'?', 'get_ipython().show_usage()'),
(u'?x1', "get_ipython().magic({u}'pinfo x1')"),
(u'??x2', "get_ipython().magic({u}'pinfo2 x2')"),
(u'?a.*s', "get_ipython().magic({u}'psearch a.*s')"),
(u'?%hist1', "get_ipython().magic({u}'pinfo %hist1')"),
(u'?%%hist2', "get_ipython().magic({u}'pinfo %%hist2')"),
(u'?abc = qwe', "get_ipython().magic({u}'pinfo abc')"),
]],
end_help =
[(i,py3compat.u_format(o)) for i,o in \
[ (u'x3?', "get_ipython().magic({u}'pinfo x3')"),
(u'x4??', "get_ipython().magic({u}'pinfo2 x4')"),
(u'%hist1?', "get_ipython().magic({u}'pinfo %hist1')"),
(u'%hist2??', "get_ipython().magic({u}'pinfo2 %hist2')"),
(u'%%hist3?', "get_ipython().magic({u}'pinfo %%hist3')"),
(u'%%hist4??', "get_ipython().magic({u}'pinfo2 %%hist4')"),
(u'f*?', "get_ipython().magic({u}'psearch f*')"),
(u'ax.*aspe*?', "get_ipython().magic({u}'psearch ax.*aspe*')"),
(u'a = abc?', "get_ipython().set_next_input({u}'a = abc');"
"get_ipython().magic({u}'pinfo abc')"),
(u'a = abc.qe??', "get_ipython().set_next_input({u}'a = abc.qe');"
"get_ipython().magic({u}'pinfo2 abc.qe')"),
(u'a = *.items?', "get_ipython().set_next_input({u}'a = *.items');"
"get_ipython().magic({u}'psearch *.items')"),
(u'plot(a?', "get_ipython().set_next_input({u}'plot(a');"
"get_ipython().magic({u}'pinfo a')"),
(u'a*2 #comment?', 'a*2 #comment?'),
]],
# Explicit magic calls
escaped_magic =
[(i,py3compat.u_format(o)) for i,o in \
[ (u'%cd', "get_ipython().magic({u}'cd')"),
(u'%cd /home', "get_ipython().magic({u}'cd /home')"),
# Backslashes need to be escaped.
(u'%cd C:\\User', "get_ipython().magic({u}'cd C:\\\\User')"),
(u' %magic', " get_ipython().magic({u}'magic')"),
]],
# Quoting with separate arguments
escaped_quote =
[ (',f', 'f("")'),
(',f x', 'f("x")'),
(' ,f y', ' f("y")'),
(',f a b', 'f("a", "b")'),
],
# Quoting with single argument
escaped_quote2 =
[ (';f', 'f("")'),
(';f x', 'f("x")'),
(' ;f y', ' f("y")'),
(';f a b', 'f("a b")'),
],
# Simply apply parens
escaped_paren =
[ ('/f', 'f()'),
('/f x', 'f(x)'),
(' /f y', ' f(y)'),
('/f a b', 'f(a, b)'),
],
# Check that we transform prompts before other transforms
mixed =
[(i,py3compat.u_format(o)) for i,o in \
[ (u'In [1]: %lsmagic', "get_ipython().magic({u}'lsmagic')"),
(u'>>> %lsmagic', "get_ipython().magic({u}'lsmagic')"),
(u'In [2]: !ls', "get_ipython().system({u}'ls')"),
(u'In [3]: abs?', "get_ipython().magic({u}'pinfo abs')"),
(u'In [4]: b = %who', "b = get_ipython().magic({u}'who')"),
]],
)
# multiline syntax examples. Each of these should be a list of lists, with
# each entry itself having pairs of raw/transformed input. The union (with
# '\n'.join() of the transformed inputs is what the splitter should produce
# when fed the raw lines one at a time via push.
syntax_ml = \
dict(classic_prompt =
[ [('>>> for i in range(10):','for i in range(10):'),
('... print i',' print i'),
('... ', ''),
],
],
ipy_prompt =
[ [('In [24]: for i in range(10):','for i in range(10):'),
(' ....: print i',' print i'),
(' ....: ', ''),
],
],
multiline_datastructure =
[ [('>>> a = [1,','a = [1,'),
('... 2]','2]'),
],
],
)
def test_assign_system():
tt.check_pairs(isp.transform_assign_system, syntax['assign_system'])
def test_assign_magic():
tt.check_pairs(isp.transform_assign_magic, syntax['assign_magic'])
def test_classic_prompt():
transform_checker(syntax['classic_prompt'], isp.transform_classic_prompt)
for example in syntax_ml['classic_prompt']:
transform_checker(example, isp.transform_classic_prompt)
def test_ipy_prompt():
transform_checker(syntax['ipy_prompt'], isp.transform_ipy_prompt)
for example in syntax_ml['ipy_prompt']:
transform_checker(example, isp.transform_ipy_prompt)
def test_end_help():
tt.check_pairs(isp.transform_help_end, syntax['end_help'])
def test_escaped_noesc():
tt.check_pairs(isp.transform_escaped, syntax['escaped_noesc'])
def test_escaped_shell():
tt.check_pairs(isp.transform_escaped, syntax['escaped_shell'])
def test_escaped_help():
tt.check_pairs(isp.transform_escaped, syntax['escaped_help'])
def test_escaped_magic():
tt.check_pairs(isp.transform_escaped, syntax['escaped_magic'])
def test_escaped_quote():
tt.check_pairs(isp.transform_escaped, syntax['escaped_quote'])
def test_escaped_quote2():
tt.check_pairs(isp.transform_escaped, syntax['escaped_quote2'])
def test_escaped_paren():
tt.check_pairs(isp.transform_escaped, syntax['escaped_paren'])
class IPythonInputTestCase(InputSplitterTestCase):
"""By just creating a new class whose .isp is a different instance, we
re-run the same test battery on the new input splitter.
In addition, this runs the tests over the syntax and syntax_ml dicts that
were tested by individual functions, as part of the OO interface.
It also makes some checks on the raw buffer storage.
"""
def setUp(self):
self.isp = isp.IPythonInputSplitter(input_mode='line')
def test_syntax(self):
"""Call all single-line syntax tests from the main object"""
isp = self.isp
for example in syntax.itervalues():
for raw, out_t in example:
if raw.startswith(' '):
continue
isp.push(raw+'\n')
out, out_raw = isp.source_raw_reset()
self.assertEqual(out.rstrip(), out_t,
tt.pair_fail_msg.format("inputsplitter",raw, out_t, out))
self.assertEqual(out_raw.rstrip(), raw.rstrip())
def test_syntax_multiline(self):
isp = self.isp
for example in syntax_ml.itervalues():
out_t_parts = []
raw_parts = []
for line_pairs in example:
for lraw, out_t_part in line_pairs:
isp.push(lraw)
out_t_parts.append(out_t_part)
raw_parts.append(lraw)
out, out_raw = isp.source_raw_reset()
out_t = '\n'.join(out_t_parts).rstrip()
raw = '\n'.join(raw_parts).rstrip()
self.assertEqual(out.rstrip(), out_t)
self.assertEqual(out_raw.rstrip(), raw)
class BlockIPythonInputTestCase(IPythonInputTestCase):
# Deactivate tests that don't make sense for the block mode
test_push3 = test_split = lambda s: None
def setUp(self):
self.isp = isp.IPythonInputSplitter(input_mode='cell')
def test_syntax_multiline(self):
isp = self.isp
for example in syntax_ml.itervalues():
raw_parts = []
out_t_parts = []
for line_pairs in example:
for raw, out_t_part in line_pairs:
raw_parts.append(raw)
out_t_parts.append(out_t_part)
raw = '\n'.join(raw_parts)
out_t = '\n'.join(out_t_parts)
isp.push(raw)
out, out_raw = isp.source_raw_reset()
# Match ignoring trailing whitespace
self.assertEqual(out.rstrip(), out_t.rstrip())
self.assertEqual(out_raw.rstrip(), raw.rstrip())
def test_syntax_multiline_cell(self):
isp = self.isp
for example in syntax_ml.itervalues():
out_t_parts = []
for line_pairs in example:
raw = '\n'.join(r for r, _ in line_pairs)
out_t = '\n'.join(t for _,t in line_pairs)
out = isp.transform_cell(raw)
# Match ignoring trailing whitespace
self.assertEqual(out.rstrip(), out_t.rstrip())
#-----------------------------------------------------------------------------
# Main - use as a script, mostly for developer experiments
#-----------------------------------------------------------------------------
if __name__ == '__main__':
# A simple demo for interactive experimentation. This code will not get
# picked up by any test suite.
from IPython.core.inputsplitter import InputSplitter, IPythonInputSplitter
# configure here the syntax to use, prompt and whether to autoindent
#isp, start_prompt = InputSplitter(), '>>> '
isp, start_prompt = IPythonInputSplitter(), 'In> '
autoindent = True
#autoindent = False
try:
while True:
prompt = start_prompt
while isp.push_accepts_more():
indent = ' '*isp.indent_spaces
if autoindent:
line = indent + raw_input(prompt+indent)
else:
line = raw_input(prompt)
isp.push(line)
prompt = '... '
# Here we just return input so we can use it in a test suite, but a
# real interpreter would instead send it for execution somewhere.
#src = isp.source; raise EOFError # dbg
src, raw = isp.source_raw_reset()
print 'Input source was:\n', src
print 'Raw source was:\n', raw
except EOFError:
print 'Bye'
# Tests for cell magics support
def test_last_blank():
nt.assert_false(isp.last_blank(''))
nt.assert_false(isp.last_blank('abc'))
nt.assert_false(isp.last_blank('abc\n'))
nt.assert_false(isp.last_blank('abc\na'))
nt.assert_true(isp.last_blank('\n'))
nt.assert_true(isp.last_blank('\n '))
nt.assert_true(isp.last_blank('abc\n '))
nt.assert_true(isp.last_blank('abc\n\n'))
nt.assert_true(isp.last_blank('abc\nd\n\n'))
nt.assert_true(isp.last_blank('abc\nd\ne\n\n'))
nt.assert_true(isp.last_blank('abc \n \n \n\n'))
def test_last_two_blanks():
nt.assert_false(isp.last_two_blanks(''))
nt.assert_false(isp.last_two_blanks('abc'))
nt.assert_false(isp.last_two_blanks('abc\n'))
nt.assert_false(isp.last_two_blanks('abc\n\na'))
nt.assert_false(isp.last_two_blanks('abc\n \n'))
nt.assert_false(isp.last_two_blanks('abc\n\n'))
nt.assert_true(isp.last_two_blanks('\n\n'))
nt.assert_true(isp.last_two_blanks('\n\n '))
nt.assert_true(isp.last_two_blanks('\n \n'))
nt.assert_true(isp.last_two_blanks('abc\n\n '))
nt.assert_true(isp.last_two_blanks('abc\n\n\n'))
nt.assert_true(isp.last_two_blanks('abc\n\n \n'))
nt.assert_true(isp.last_two_blanks('abc\n\n \n '))
nt.assert_true(isp.last_two_blanks('abc\n\n \n \n'))
nt.assert_true(isp.last_two_blanks('abc\nd\n\n\n'))
nt.assert_true(isp.last_two_blanks('abc\nd\ne\nf\n\n\n'))
class CellMagicsCommon(object):
def test_whole_cell(self):
src = "%%cellm line\nbody\n"
sp = self.sp
sp.push(src)
nt.assert_equal(sp.cell_magic_parts, ['body\n'])
out = sp.source
ref = u"get_ipython()._run_cached_cell_magic({u}'cellm', {u}'line')\n"
nt.assert_equal(out, py3compat.u_format(ref))
def tearDown(self):
self.sp.reset()
class CellModeCellMagics(CellMagicsCommon, unittest.TestCase):
sp = isp.IPythonInputSplitter(input_mode='cell')
def test_incremental(self):
sp = self.sp
src = '%%cellm line2\n'
sp.push(src)
nt.assert_true(sp.push_accepts_more()) #1
src += '\n'
sp.push(src)
# Note: if we ever change the logic to allow full blank lines (see
# _handle_cell_magic), then the following test should change to true
nt.assert_false(sp.push_accepts_more()) #2
# By now, even with full blanks allowed, a second blank should signal
# the end. For now this test is only a redundancy safety, but don't
# delete it in case we change our mind and the previous one goes to
# true.
src += '\n'
sp.push(src)
nt.assert_false(sp.push_accepts_more()) #3
class LineModeCellMagics(CellMagicsCommon, unittest.TestCase):
sp = isp.IPythonInputSplitter(input_mode='line')
def test_incremental(self):
sp = self.sp
sp.push('%%cellm line2\n')
nt.assert_true(sp.push_accepts_more()) #1
sp.push('\n')
nt.assert_false(sp.push_accepts_more()) #2