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|
# -*- coding: utf-8 -*-
import collections
import io
import itertools
import pprint
import random
import test.support
import test.test_set
import types
import unittest
# list, tuple and dict subclasses that do or don't overwrite __repr__
class list2(list):
pass
class list3(list):
def __repr__(self):
return list.__repr__(self)
class tuple2(tuple):
pass
class tuple3(tuple):
def __repr__(self):
return tuple.__repr__(self)
class set2(set):
pass
class set3(set):
def __repr__(self):
return set.__repr__(self)
class frozenset2(frozenset):
pass
class frozenset3(frozenset):
def __repr__(self):
return frozenset.__repr__(self)
class dict2(dict):
pass
class dict3(dict):
def __repr__(self):
return dict.__repr__(self)
class Unorderable:
def __repr__(self):
return str(id(self))
# Class Orderable is orderable with any type
class Orderable:
def __init__(self, hash):
self._hash = hash
def __lt__(self, other):
return False
def __gt__(self, other):
return self != other
def __le__(self, other):
return self == other
def __ge__(self, other):
return True
def __eq__(self, other):
return self is other
def __ne__(self, other):
return self is not other
def __hash__(self):
return self._hash
class QueryTestCase(unittest.TestCase):
def setUp(self):
self.a = list(range(100))
self.b = list(range(200))
self.a[-12] = self.b
def test_init(self):
pp = pprint.PrettyPrinter()
pp = pprint.PrettyPrinter(indent=4, width=40, depth=5,
stream=io.StringIO(), compact=True)
pp = pprint.PrettyPrinter(4, 40, 5, io.StringIO())
pp = pprint.PrettyPrinter(sort_dicts=False)
with self.assertRaises(TypeError):
pp = pprint.PrettyPrinter(4, 40, 5, io.StringIO(), True)
self.assertRaises(ValueError, pprint.PrettyPrinter, indent=-1)
self.assertRaises(ValueError, pprint.PrettyPrinter, depth=0)
self.assertRaises(ValueError, pprint.PrettyPrinter, depth=-1)
self.assertRaises(ValueError, pprint.PrettyPrinter, width=0)
def test_basic(self):
# Verify .isrecursive() and .isreadable() w/o recursion
pp = pprint.PrettyPrinter()
for safe in (2, 2.0, 2j, "abc", [3], (2,2), {3: 3}, b"def",
bytearray(b"ghi"), True, False, None, ...,
self.a, self.b):
# module-level convenience functions
self.assertFalse(pprint.isrecursive(safe),
"expected not isrecursive for %r" % (safe,))
self.assertTrue(pprint.isreadable(safe),
"expected isreadable for %r" % (safe,))
# PrettyPrinter methods
self.assertFalse(pp.isrecursive(safe),
"expected not isrecursive for %r" % (safe,))
self.assertTrue(pp.isreadable(safe),
"expected isreadable for %r" % (safe,))
def test_knotted(self):
# Verify .isrecursive() and .isreadable() w/ recursion
# Tie a knot.
self.b[67] = self.a
# Messy dict.
self.d = {}
self.d[0] = self.d[1] = self.d[2] = self.d
pp = pprint.PrettyPrinter()
for icky in self.a, self.b, self.d, (self.d, self.d):
self.assertTrue(pprint.isrecursive(icky), "expected isrecursive")
self.assertFalse(pprint.isreadable(icky), "expected not isreadable")
self.assertTrue(pp.isrecursive(icky), "expected isrecursive")
self.assertFalse(pp.isreadable(icky), "expected not isreadable")
# Break the cycles.
self.d.clear()
del self.a[:]
del self.b[:]
for safe in self.a, self.b, self.d, (self.d, self.d):
# module-level convenience functions
self.assertFalse(pprint.isrecursive(safe),
"expected not isrecursive for %r" % (safe,))
self.assertTrue(pprint.isreadable(safe),
"expected isreadable for %r" % (safe,))
# PrettyPrinter methods
self.assertFalse(pp.isrecursive(safe),
"expected not isrecursive for %r" % (safe,))
self.assertTrue(pp.isreadable(safe),
"expected isreadable for %r" % (safe,))
def test_unreadable(self):
# Not recursive but not readable anyway
pp = pprint.PrettyPrinter()
for unreadable in type(3), pprint, pprint.isrecursive:
# module-level convenience functions
self.assertFalse(pprint.isrecursive(unreadable),
"expected not isrecursive for %r" % (unreadable,))
self.assertFalse(pprint.isreadable(unreadable),
"expected not isreadable for %r" % (unreadable,))
# PrettyPrinter methods
self.assertFalse(pp.isrecursive(unreadable),
"expected not isrecursive for %r" % (unreadable,))
self.assertFalse(pp.isreadable(unreadable),
"expected not isreadable for %r" % (unreadable,))
def test_same_as_repr(self):
# Simple objects, small containers and classes that overwrite __repr__
# For those the result should be the same as repr().
# Ahem. The docs don't say anything about that -- this appears to
# be testing an implementation quirk. Starting in Python 2.5, it's
# not true for dicts: pprint always sorts dicts by key now; before,
# it sorted a dict display if and only if the display required
# multiple lines. For that reason, dicts with more than one element
# aren't tested here.
for simple in (0, 0, 0+0j, 0.0, "", b"", bytearray(),
(), tuple2(), tuple3(),
[], list2(), list3(),
set(), set2(), set3(),
frozenset(), frozenset2(), frozenset3(),
{}, dict2(), dict3(),
self.assertTrue, pprint,
-6, -6, -6-6j, -1.5, "x", b"x", bytearray(b"x"),
(3,), [3], {3: 6},
(1,2), [3,4], {5: 6},
tuple2((1,2)), tuple3((1,2)), tuple3(range(100)),
[3,4], list2([3,4]), list3([3,4]), list3(range(100)),
set({7}), set2({7}), set3({7}),
frozenset({8}), frozenset2({8}), frozenset3({8}),
dict2({5: 6}), dict3({5: 6}),
range(10, -11, -1),
True, False, None, ...,
):
native = repr(simple)
self.assertEqual(pprint.pformat(simple), native)
self.assertEqual(pprint.pformat(simple, width=1, indent=0)
.replace('\n', ' '), native)
self.assertEqual(pprint.saferepr(simple), native)
def test_basic_line_wrap(self):
# verify basic line-wrapping operation
o = {'RPM_cal': 0,
'RPM_cal2': 48059,
'Speed_cal': 0,
'controldesk_runtime_us': 0,
'main_code_runtime_us': 0,
'read_io_runtime_us': 0,
'write_io_runtime_us': 43690}
exp = """\
{'RPM_cal': 0,
'RPM_cal2': 48059,
'Speed_cal': 0,
'controldesk_runtime_us': 0,
'main_code_runtime_us': 0,
'read_io_runtime_us': 0,
'write_io_runtime_us': 43690}"""
for type in [dict, dict2]:
self.assertEqual(pprint.pformat(type(o)), exp)
o = range(100)
exp = '[%s]' % ',\n '.join(map(str, o))
for type in [list, list2]:
self.assertEqual(pprint.pformat(type(o)), exp)
o = tuple(range(100))
exp = '(%s)' % ',\n '.join(map(str, o))
for type in [tuple, tuple2]:
self.assertEqual(pprint.pformat(type(o)), exp)
# indent parameter
o = range(100)
exp = '[ %s]' % ',\n '.join(map(str, o))
for type in [list, list2]:
self.assertEqual(pprint.pformat(type(o), indent=4), exp)
def test_nested_indentations(self):
o1 = list(range(10))
o2 = dict(first=1, second=2, third=3)
o = [o1, o2]
expected = """\
[ [0, 1, 2, 3, 4, 5, 6, 7, 8, 9],
{'first': 1, 'second': 2, 'third': 3}]"""
self.assertEqual(pprint.pformat(o, indent=4, width=42), expected)
expected = """\
[ [0, 1, 2, 3, 4, 5, 6, 7, 8, 9],
{ 'first': 1,
'second': 2,
'third': 3}]"""
self.assertEqual(pprint.pformat(o, indent=4, width=41), expected)
def test_width(self):
expected = """\
[[[[[[1, 2, 3],
'1 2']]]],
{1: [1, 2, 3],
2: [12, 34]},
'abc def ghi',
('ab cd ef',),
set2({1, 23}),
[[[[[1, 2, 3],
'1 2']]]]]"""
o = eval(expected)
self.assertEqual(pprint.pformat(o, width=15), expected)
self.assertEqual(pprint.pformat(o, width=16), expected)
self.assertEqual(pprint.pformat(o, width=25), expected)
self.assertEqual(pprint.pformat(o, width=14), """\
[[[[[[1,
2,
3],
'1 '
'2']]]],
{1: [1,
2,
3],
2: [12,
34]},
'abc def '
'ghi',
('ab cd '
'ef',),
set2({1,
23}),
[[[[[1,
2,
3],
'1 '
'2']]]]]""")
def test_sorted_dict(self):
# Starting in Python 2.5, pprint sorts dict displays by key regardless
# of how small the dictionary may be.
# Before the change, on 32-bit Windows pformat() gave order
# 'a', 'c', 'b' here, so this test failed.
d = {'a': 1, 'b': 1, 'c': 1}
self.assertEqual(pprint.pformat(d), "{'a': 1, 'b': 1, 'c': 1}")
self.assertEqual(pprint.pformat([d, d]),
"[{'a': 1, 'b': 1, 'c': 1}, {'a': 1, 'b': 1, 'c': 1}]")
# The next one is kind of goofy. The sorted order depends on the
# alphabetic order of type names: "int" < "str" < "tuple". Before
# Python 2.5, this was in the test_same_as_repr() test. It's worth
# keeping around for now because it's one of few tests of pprint
# against a crazy mix of types.
self.assertEqual(pprint.pformat({"xy\tab\n": (3,), 5: [[]], (): {}}),
r"{5: [[]], 'xy\tab\n': (3,), (): {}}")
def test_sort_dict(self):
d = dict.fromkeys('cba')
self.assertEqual(pprint.pformat(d, sort_dicts=False), "{'c': None, 'b': None, 'a': None}")
self.assertEqual(pprint.pformat([d, d], sort_dicts=False),
"[{'c': None, 'b': None, 'a': None}, {'c': None, 'b': None, 'a': None}]")
def test_ordered_dict(self):
d = collections.OrderedDict()
self.assertEqual(pprint.pformat(d, width=1), 'OrderedDict()')
d = collections.OrderedDict([])
self.assertEqual(pprint.pformat(d, width=1), 'OrderedDict()')
words = 'the quick brown fox jumped over a lazy dog'.split()
d = collections.OrderedDict(zip(words, itertools.count()))
self.assertEqual(pprint.pformat(d),
"""\
OrderedDict([('the', 0),
('quick', 1),
('brown', 2),
('fox', 3),
('jumped', 4),
('over', 5),
('a', 6),
('lazy', 7),
('dog', 8)])""")
def test_mapping_proxy(self):
words = 'the quick brown fox jumped over a lazy dog'.split()
d = dict(zip(words, itertools.count()))
m = types.MappingProxyType(d)
self.assertEqual(pprint.pformat(m), """\
mappingproxy({'a': 6,
'brown': 2,
'dog': 8,
'fox': 3,
'jumped': 4,
'lazy': 7,
'over': 5,
'quick': 1,
'the': 0})""")
d = collections.OrderedDict(zip(words, itertools.count()))
m = types.MappingProxyType(d)
self.assertEqual(pprint.pformat(m), """\
mappingproxy(OrderedDict([('the', 0),
('quick', 1),
('brown', 2),
('fox', 3),
('jumped', 4),
('over', 5),
('a', 6),
('lazy', 7),
('dog', 8)]))""")
def test_empty_simple_namespace(self):
ns = types.SimpleNamespace()
formatted = pprint.pformat(ns)
self.assertEqual(formatted, "namespace()")
def test_small_simple_namespace(self):
ns = types.SimpleNamespace(a=1, b=2)
formatted = pprint.pformat(ns)
self.assertEqual(formatted, "namespace(a=1, b=2)")
def test_simple_namespace(self):
ns = types.SimpleNamespace(
the=0,
quick=1,
brown=2,
fox=3,
jumped=4,
over=5,
a=6,
lazy=7,
dog=8,
)
formatted = pprint.pformat(ns, width=60)
self.assertEqual(formatted, """\
namespace(the=0,
quick=1,
brown=2,
fox=3,
jumped=4,
over=5,
a=6,
lazy=7,
dog=8)""")
def test_simple_namespace_subclass(self):
class AdvancedNamespace(types.SimpleNamespace): pass
ns = AdvancedNamespace(
the=0,
quick=1,
brown=2,
fox=3,
jumped=4,
over=5,
a=6,
lazy=7,
dog=8,
)
formatted = pprint.pformat(ns, width=60)
self.assertEqual(formatted, """\
AdvancedNamespace(the=0,
quick=1,
brown=2,
fox=3,
jumped=4,
over=5,
a=6,
lazy=7,
dog=8)""")
def test_subclassing(self):
o = {'names with spaces': 'should be presented using repr()',
'others.should.not.be': 'like.this'}
exp = """\
{'names with spaces': 'should be presented using repr()',
others.should.not.be: like.this}"""
self.assertEqual(DottedPrettyPrinter().pformat(o), exp)
def test_set_reprs(self):
self.assertEqual(pprint.pformat(set()), 'set()')
self.assertEqual(pprint.pformat(set(range(3))), '{0, 1, 2}')
self.assertEqual(pprint.pformat(set(range(7)), width=20), '''\
{0,
1,
2,
3,
4,
5,
6}''')
self.assertEqual(pprint.pformat(set2(range(7)), width=20), '''\
set2({0,
1,
2,
3,
4,
5,
6})''')
self.assertEqual(pprint.pformat(set3(range(7)), width=20),
'set3({0, 1, 2, 3, 4, 5, 6})')
self.assertEqual(pprint.pformat(frozenset()), 'frozenset()')
self.assertEqual(pprint.pformat(frozenset(range(3))),
'frozenset({0, 1, 2})')
self.assertEqual(pprint.pformat(frozenset(range(7)), width=20), '''\
frozenset({0,
1,
2,
3,
4,
5,
6})''')
self.assertEqual(pprint.pformat(frozenset2(range(7)), width=20), '''\
frozenset2({0,
1,
2,
3,
4,
5,
6})''')
self.assertEqual(pprint.pformat(frozenset3(range(7)), width=20),
'frozenset3({0, 1, 2, 3, 4, 5, 6})')
@unittest.expectedFailure
#See http://bugs.python.org/issue13907
@test.support.cpython_only
def test_set_of_sets_reprs(self):
# This test creates a complex arrangement of frozensets and
# compares the pretty-printed repr against a string hard-coded in
# the test. The hard-coded repr depends on the sort order of
# frozensets.
#
# However, as the docs point out: "Since sets only define
# partial ordering (subset relationships), the output of the
# list.sort() method is undefined for lists of sets."
#
# In a nutshell, the test assumes frozenset({0}) will always
# sort before frozenset({1}), but:
#
# >>> frozenset({0}) < frozenset({1})
# False
# >>> frozenset({1}) < frozenset({0})
# False
#
# Consequently, this test is fragile and
# implementation-dependent. Small changes to Python's sort
# algorithm cause the test to fail when it should pass.
# XXX Or changes to the dictionary implementation...
cube_repr_tgt = """\
{frozenset(): frozenset({frozenset({2}), frozenset({0}), frozenset({1})}),
frozenset({0}): frozenset({frozenset(),
frozenset({0, 2}),
frozenset({0, 1})}),
frozenset({1}): frozenset({frozenset(),
frozenset({1, 2}),
frozenset({0, 1})}),
frozenset({2}): frozenset({frozenset(),
frozenset({1, 2}),
frozenset({0, 2})}),
frozenset({1, 2}): frozenset({frozenset({2}),
frozenset({1}),
frozenset({0, 1, 2})}),
frozenset({0, 2}): frozenset({frozenset({2}),
frozenset({0}),
frozenset({0, 1, 2})}),
frozenset({0, 1}): frozenset({frozenset({0}),
frozenset({1}),
frozenset({0, 1, 2})}),
frozenset({0, 1, 2}): frozenset({frozenset({1, 2}),
frozenset({0, 2}),
frozenset({0, 1})})}"""
cube = test.test_set.cube(3)
self.assertEqual(pprint.pformat(cube), cube_repr_tgt)
cubo_repr_tgt = """\
{frozenset({frozenset({0, 2}), frozenset({0})}): frozenset({frozenset({frozenset({0,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0}),
frozenset({0,
1})}),
frozenset({frozenset(),
frozenset({0})}),
frozenset({frozenset({2}),
frozenset({0,
2})})}),
frozenset({frozenset({0, 1}), frozenset({1})}): frozenset({frozenset({frozenset({0,
1}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0}),
frozenset({0,
1})}),
frozenset({frozenset({1}),
frozenset({1,
2})}),
frozenset({frozenset(),
frozenset({1})})}),
frozenset({frozenset({1, 2}), frozenset({1})}): frozenset({frozenset({frozenset({1,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({2}),
frozenset({1,
2})}),
frozenset({frozenset(),
frozenset({1})}),
frozenset({frozenset({1}),
frozenset({0,
1})})}),
frozenset({frozenset({1, 2}), frozenset({2})}): frozenset({frozenset({frozenset({1,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({1}),
frozenset({1,
2})}),
frozenset({frozenset({2}),
frozenset({0,
2})}),
frozenset({frozenset(),
frozenset({2})})}),
frozenset({frozenset(), frozenset({0})}): frozenset({frozenset({frozenset({0}),
frozenset({0,
1})}),
frozenset({frozenset({0}),
frozenset({0,
2})}),
frozenset({frozenset(),
frozenset({1})}),
frozenset({frozenset(),
frozenset({2})})}),
frozenset({frozenset(), frozenset({1})}): frozenset({frozenset({frozenset(),
frozenset({0})}),
frozenset({frozenset({1}),
frozenset({1,
2})}),
frozenset({frozenset(),
frozenset({2})}),
frozenset({frozenset({1}),
frozenset({0,
1})})}),
frozenset({frozenset({2}), frozenset()}): frozenset({frozenset({frozenset({2}),
frozenset({1,
2})}),
frozenset({frozenset(),
frozenset({0})}),
frozenset({frozenset(),
frozenset({1})}),
frozenset({frozenset({2}),
frozenset({0,
2})})}),
frozenset({frozenset({0, 1, 2}), frozenset({0, 1})}): frozenset({frozenset({frozenset({1,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0}),
frozenset({0,
1})}),
frozenset({frozenset({1}),
frozenset({0,
1})})}),
frozenset({frozenset({0}), frozenset({0, 1})}): frozenset({frozenset({frozenset(),
frozenset({0})}),
frozenset({frozenset({0,
1}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0}),
frozenset({0,
2})}),
frozenset({frozenset({1}),
frozenset({0,
1})})}),
frozenset({frozenset({2}), frozenset({0, 2})}): frozenset({frozenset({frozenset({0,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({2}),
frozenset({1,
2})}),
frozenset({frozenset({0}),
frozenset({0,
2})}),
frozenset({frozenset(),
frozenset({2})})}),
frozenset({frozenset({0, 1, 2}), frozenset({0, 2})}): frozenset({frozenset({frozenset({1,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0,
1}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0}),
frozenset({0,
2})}),
frozenset({frozenset({2}),
frozenset({0,
2})})}),
frozenset({frozenset({1, 2}), frozenset({0, 1, 2})}): frozenset({frozenset({frozenset({0,
2}),
frozenset({0,
1,
2})}),
frozenset({frozenset({0,
1}),
frozenset({0,
1,
2})}),
frozenset({frozenset({2}),
frozenset({1,
2})}),
frozenset({frozenset({1}),
frozenset({1,
2})})})}"""
cubo = test.test_set.linegraph(cube)
self.assertEqual(pprint.pformat(cubo), cubo_repr_tgt)
def test_depth(self):
nested_tuple = (1, (2, (3, (4, (5, 6)))))
nested_dict = {1: {2: {3: {4: {5: {6: 6}}}}}}
nested_list = [1, [2, [3, [4, [5, [6, []]]]]]]
self.assertEqual(pprint.pformat(nested_tuple), repr(nested_tuple))
self.assertEqual(pprint.pformat(nested_dict), repr(nested_dict))
self.assertEqual(pprint.pformat(nested_list), repr(nested_list))
lv1_tuple = '(1, (...))'
lv1_dict = '{1: {...}}'
lv1_list = '[1, [...]]'
self.assertEqual(pprint.pformat(nested_tuple, depth=1), lv1_tuple)
self.assertEqual(pprint.pformat(nested_dict, depth=1), lv1_dict)
self.assertEqual(pprint.pformat(nested_list, depth=1), lv1_list)
def test_sort_unorderable_values(self):
# Issue 3976: sorted pprints fail for unorderable values.
n = 20
keys = [Unorderable() for i in range(n)]
random.shuffle(keys)
skeys = sorted(keys, key=id)
clean = lambda s: s.replace(' ', '').replace('\n','')
self.assertEqual(clean(pprint.pformat(set(keys))),
'{' + ','.join(map(repr, skeys)) + '}')
self.assertEqual(clean(pprint.pformat(frozenset(keys))),
'frozenset({' + ','.join(map(repr, skeys)) + '})')
self.assertEqual(clean(pprint.pformat(dict.fromkeys(keys))),
'{' + ','.join('%r:None' % k for k in skeys) + '}')
# Issue 10017: TypeError on user-defined types as dict keys.
self.assertEqual(pprint.pformat({Unorderable: 0, 1: 0}),
'{1: 0, ' + repr(Unorderable) +': 0}')
# Issue 14998: TypeError on tuples with NoneTypes as dict keys.
keys = [(1,), (None,)]
self.assertEqual(pprint.pformat(dict.fromkeys(keys, 0)),
'{%r: 0, %r: 0}' % tuple(sorted(keys, key=id)))
def test_sort_orderable_and_unorderable_values(self):
# Issue 22721: sorted pprints is not stable
a = Unorderable()
b = Orderable(hash(a)) # should have the same hash value
# self-test
self.assertLess(a, b)
self.assertLess(str(type(b)), str(type(a)))
self.assertEqual(sorted([b, a]), [a, b])
self.assertEqual(sorted([a, b]), [a, b])
# set
self.assertEqual(pprint.pformat(set([b, a]), width=1),
'{%r,\n %r}' % (a, b))
self.assertEqual(pprint.pformat(set([a, b]), width=1),
'{%r,\n %r}' % (a, b))
# dict
self.assertEqual(pprint.pformat(dict.fromkeys([b, a]), width=1),
'{%r: None,\n %r: None}' % (a, b))
self.assertEqual(pprint.pformat(dict.fromkeys([a, b]), width=1),
'{%r: None,\n %r: None}' % (a, b))
def test_str_wrap(self):
# pprint tries to wrap strings intelligently
fox = 'the quick brown fox jumped over a lazy dog'
self.assertEqual(pprint.pformat(fox, width=19), """\
('the quick brown '
'fox jumped over '
'a lazy dog')""")
self.assertEqual(pprint.pformat({'a': 1, 'b': fox, 'c': 2},
width=25), """\
{'a': 1,
'b': 'the quick brown '
'fox jumped over '
'a lazy dog',
'c': 2}""")
# With some special characters
# - \n always triggers a new line in the pprint
# - \t and \n are escaped
# - non-ASCII is allowed
# - an apostrophe doesn't disrupt the pprint
special = "Portons dix bons \"whiskys\"\nà l'avocat goujat\t qui fumait au zoo"
self.assertEqual(pprint.pformat(special, width=68), repr(special))
self.assertEqual(pprint.pformat(special, width=31), """\
('Portons dix bons "whiskys"\\n'
"à l'avocat goujat\\t qui "
'fumait au zoo')""")
self.assertEqual(pprint.pformat(special, width=20), """\
('Portons dix bons '
'"whiskys"\\n'
"à l'avocat "
'goujat\\t qui '
'fumait au zoo')""")
self.assertEqual(pprint.pformat([[[[[special]]]]], width=35), """\
[[[[['Portons dix bons "whiskys"\\n'
"à l'avocat goujat\\t qui "
'fumait au zoo']]]]]""")
self.assertEqual(pprint.pformat([[[[[special]]]]], width=25), """\
[[[[['Portons dix bons '
'"whiskys"\\n'
"à l'avocat "
'goujat\\t qui '
'fumait au zoo']]]]]""")
self.assertEqual(pprint.pformat([[[[[special]]]]], width=23), """\
[[[[['Portons dix '
'bons "whiskys"\\n'
"à l'avocat "
'goujat\\t qui '
'fumait au '
'zoo']]]]]""")
# An unwrappable string is formatted as its repr
unwrappable = "x" * 100
self.assertEqual(pprint.pformat(unwrappable, width=80), repr(unwrappable))
self.assertEqual(pprint.pformat(''), "''")
# Check that the pprint is a usable repr
special *= 10
for width in range(3, 40):
formatted = pprint.pformat(special, width=width)
self.assertEqual(eval(formatted), special)
formatted = pprint.pformat([special] * 2, width=width)
self.assertEqual(eval(formatted), [special] * 2)
def test_compact(self):
o = ([list(range(i * i)) for i in range(5)] +
[list(range(i)) for i in range(6)])
expected = """\
[[], [0], [0, 1, 2, 3],
[0, 1, 2, 3, 4, 5, 6, 7, 8],
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13,
14, 15],
[], [0], [0, 1], [0, 1, 2], [0, 1, 2, 3],
[0, 1, 2, 3, 4]]"""
self.assertEqual(pprint.pformat(o, width=47, compact=True), expected)
def test_compact_width(self):
levels = 20
number = 10
o = [0] * number
for i in range(levels - 1):
o = [o]
for w in range(levels * 2 + 1, levels + 3 * number - 1):
lines = pprint.pformat(o, width=w, compact=True).splitlines()
maxwidth = max(map(len, lines))
self.assertLessEqual(maxwidth, w)
self.assertGreater(maxwidth, w - 3)
def test_bytes_wrap(self):
self.assertEqual(pprint.pformat(b'', width=1), "b''")
self.assertEqual(pprint.pformat(b'abcd', width=1), "b'abcd'")
letters = b'abcdefghijklmnopqrstuvwxyz'
self.assertEqual(pprint.pformat(letters, width=29), repr(letters))
self.assertEqual(pprint.pformat(letters, width=19), """\
(b'abcdefghijkl'
b'mnopqrstuvwxyz')""")
self.assertEqual(pprint.pformat(letters, width=18), """\
(b'abcdefghijkl'
b'mnopqrstuvwx'
b'yz')""")
self.assertEqual(pprint.pformat(letters, width=16), """\
(b'abcdefghijkl'
b'mnopqrstuvwx'
b'yz')""")
special = bytes(range(16))
self.assertEqual(pprint.pformat(special, width=61), repr(special))
self.assertEqual(pprint.pformat(special, width=48), """\
(b'\\x00\\x01\\x02\\x03\\x04\\x05\\x06\\x07\\x08\\t\\n\\x0b'
b'\\x0c\\r\\x0e\\x0f')""")
self.assertEqual(pprint.pformat(special, width=32), """\
(b'\\x00\\x01\\x02\\x03'
b'\\x04\\x05\\x06\\x07\\x08\\t\\n\\x0b'
b'\\x0c\\r\\x0e\\x0f')""")
self.assertEqual(pprint.pformat(special, width=1), """\
(b'\\x00\\x01\\x02\\x03'
b'\\x04\\x05\\x06\\x07'
b'\\x08\\t\\n\\x0b'
b'\\x0c\\r\\x0e\\x0f')""")
self.assertEqual(pprint.pformat({'a': 1, 'b': letters, 'c': 2},
width=21), """\
{'a': 1,
'b': b'abcdefghijkl'
b'mnopqrstuvwx'
b'yz',
'c': 2}""")
self.assertEqual(pprint.pformat({'a': 1, 'b': letters, 'c': 2},
width=20), """\
{'a': 1,
'b': b'abcdefgh'
b'ijklmnop'
b'qrstuvwxyz',
'c': 2}""")
self.assertEqual(pprint.pformat([[[[[[letters]]]]]], width=25), """\
[[[[[[b'abcdefghijklmnop'
b'qrstuvwxyz']]]]]]""")
self.assertEqual(pprint.pformat([[[[[[special]]]]]], width=41), """\
[[[[[[b'\\x00\\x01\\x02\\x03\\x04\\x05\\x06\\x07'
b'\\x08\\t\\n\\x0b\\x0c\\r\\x0e\\x0f']]]]]]""")
# Check that the pprint is a usable repr
for width in range(1, 64):
formatted = pprint.pformat(special, width=width)
self.assertEqual(eval(formatted), special)
formatted = pprint.pformat([special] * 2, width=width)
self.assertEqual(eval(formatted), [special] * 2)
def test_bytearray_wrap(self):
self.assertEqual(pprint.pformat(bytearray(), width=1), "bytearray(b'')")
letters = bytearray(b'abcdefghijklmnopqrstuvwxyz')
self.assertEqual(pprint.pformat(letters, width=40), repr(letters))
self.assertEqual(pprint.pformat(letters, width=28), """\
bytearray(b'abcdefghijkl'
b'mnopqrstuvwxyz')""")
self.assertEqual(pprint.pformat(letters, width=27), """\
bytearray(b'abcdefghijkl'
b'mnopqrstuvwx'
b'yz')""")
self.assertEqual(pprint.pformat(letters, width=25), """\
bytearray(b'abcdefghijkl'
b'mnopqrstuvwx'
b'yz')""")
special = bytearray(range(16))
self.assertEqual(pprint.pformat(special, width=72), repr(special))
self.assertEqual(pprint.pformat(special, width=57), """\
bytearray(b'\\x00\\x01\\x02\\x03\\x04\\x05\\x06\\x07\\x08\\t\\n\\x0b'
b'\\x0c\\r\\x0e\\x0f')""")
self.assertEqual(pprint.pformat(special, width=41), """\
bytearray(b'\\x00\\x01\\x02\\x03'
b'\\x04\\x05\\x06\\x07\\x08\\t\\n\\x0b'
b'\\x0c\\r\\x0e\\x0f')""")
self.assertEqual(pprint.pformat(special, width=1), """\
bytearray(b'\\x00\\x01\\x02\\x03'
b'\\x04\\x05\\x06\\x07'
b'\\x08\\t\\n\\x0b'
b'\\x0c\\r\\x0e\\x0f')""")
self.assertEqual(pprint.pformat({'a': 1, 'b': letters, 'c': 2},
width=31), """\
{'a': 1,
'b': bytearray(b'abcdefghijkl'
b'mnopqrstuvwx'
b'yz'),
'c': 2}""")
self.assertEqual(pprint.pformat([[[[[letters]]]]], width=37), """\
[[[[[bytearray(b'abcdefghijklmnop'
b'qrstuvwxyz')]]]]]""")
self.assertEqual(pprint.pformat([[[[[special]]]]], width=50), """\
[[[[[bytearray(b'\\x00\\x01\\x02\\x03\\x04\\x05\\x06\\x07'
b'\\x08\\t\\n\\x0b\\x0c\\r\\x0e\\x0f')]]]]]""")
def test_default_dict(self):
d = collections.defaultdict(int)
self.assertEqual(pprint.pformat(d, width=1), "defaultdict(<class 'int'>, {})")
words = 'the quick brown fox jumped over a lazy dog'.split()
d = collections.defaultdict(int, zip(words, itertools.count()))
self.assertEqual(pprint.pformat(d),
"""\
defaultdict(<class 'int'>,
{'a': 6,
'brown': 2,
'dog': 8,
'fox': 3,
'jumped': 4,
'lazy': 7,
'over': 5,
'quick': 1,
'the': 0})""")
def test_counter(self):
d = collections.Counter()
self.assertEqual(pprint.pformat(d, width=1), "Counter()")
d = collections.Counter('senselessness')
self.assertEqual(pprint.pformat(d, width=40),
"""\
Counter({'s': 6,
'e': 4,
'n': 2,
'l': 1})""")
def test_chainmap(self):
d = collections.ChainMap()
self.assertEqual(pprint.pformat(d, width=1), "ChainMap({})")
words = 'the quick brown fox jumped over a lazy dog'.split()
items = list(zip(words, itertools.count()))
d = collections.ChainMap(dict(items))
self.assertEqual(pprint.pformat(d),
"""\
ChainMap({'a': 6,
'brown': 2,
'dog': 8,
'fox': 3,
'jumped': 4,
'lazy': 7,
'over': 5,
'quick': 1,
'the': 0})""")
d = collections.ChainMap(dict(items), collections.OrderedDict(items))
self.assertEqual(pprint.pformat(d),
"""\
ChainMap({'a': 6,
'brown': 2,
'dog': 8,
'fox': 3,
'jumped': 4,
'lazy': 7,
'over': 5,
'quick': 1,
'the': 0},
OrderedDict([('the', 0),
('quick', 1),
('brown', 2),
('fox', 3),
('jumped', 4),
('over', 5),
('a', 6),
('lazy', 7),
('dog', 8)]))""")
def test_deque(self):
d = collections.deque()
self.assertEqual(pprint.pformat(d, width=1), "deque([])")
d = collections.deque(maxlen=7)
self.assertEqual(pprint.pformat(d, width=1), "deque([], maxlen=7)")
words = 'the quick brown fox jumped over a lazy dog'.split()
d = collections.deque(zip(words, itertools.count()))
self.assertEqual(pprint.pformat(d),
"""\
deque([('the', 0),
('quick', 1),
('brown', 2),
('fox', 3),
('jumped', 4),
('over', 5),
('a', 6),
('lazy', 7),
('dog', 8)])""")
d = collections.deque(zip(words, itertools.count()), maxlen=7)
self.assertEqual(pprint.pformat(d),
"""\
deque([('brown', 2),
('fox', 3),
('jumped', 4),
('over', 5),
('a', 6),
('lazy', 7),
('dog', 8)],
maxlen=7)""")
def test_user_dict(self):
d = collections.UserDict()
self.assertEqual(pprint.pformat(d, width=1), "{}")
words = 'the quick brown fox jumped over a lazy dog'.split()
d = collections.UserDict(zip(words, itertools.count()))
self.assertEqual(pprint.pformat(d),
"""\
{'a': 6,
'brown': 2,
'dog': 8,
'fox': 3,
'jumped': 4,
'lazy': 7,
'over': 5,
'quick': 1,
'the': 0}""")
def test_user_list(self):
d = collections.UserList()
self.assertEqual(pprint.pformat(d, width=1), "[]")
words = 'the quick brown fox jumped over a lazy dog'.split()
d = collections.UserList(zip(words, itertools.count()))
self.assertEqual(pprint.pformat(d),
"""\
[('the', 0),
('quick', 1),
('brown', 2),
('fox', 3),
('jumped', 4),
('over', 5),
('a', 6),
('lazy', 7),
('dog', 8)]""")
def test_user_string(self):
d = collections.UserString('')
self.assertEqual(pprint.pformat(d, width=1), "''")
d = collections.UserString('the quick brown fox jumped over a lazy dog')
self.assertEqual(pprint.pformat(d, width=20),
"""\
('the quick brown '
'fox jumped over '
'a lazy dog')""")
self.assertEqual(pprint.pformat({1: d}, width=20),
"""\
{1: 'the quick '
'brown fox '
'jumped over a '
'lazy dog'}""")
class DottedPrettyPrinter(pprint.PrettyPrinter):
def format(self, object, context, maxlevels, level):
if isinstance(object, str):
if ' ' in object:
return repr(object), 1, 0
else:
return object, 0, 0
else:
return pprint.PrettyPrinter.format(
self, object, context, maxlevels, level)
if __name__ == "__main__":
unittest.main()
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