100 lines
4.1 KiB
Python
100 lines
4.1 KiB
Python
import decimal
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from io import StringIO
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from collections import OrderedDict
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from test.test_json import PyTest, CTest
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class TestDecode:
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def test_decimal(self):
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rval = self.loads('1.1', parse_float=decimal.Decimal)
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self.assertTrue(isinstance(rval, decimal.Decimal))
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self.assertEqual(rval, decimal.Decimal('1.1'))
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def test_float(self):
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rval = self.loads('1', parse_int=float)
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self.assertTrue(isinstance(rval, float))
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self.assertEqual(rval, 1.0)
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def test_empty_objects(self):
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self.assertEqual(self.loads('{}'), {})
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self.assertEqual(self.loads('[]'), [])
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self.assertEqual(self.loads('""'), "")
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def test_object_pairs_hook(self):
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s = '{"xkd":1, "kcw":2, "art":3, "hxm":4, "qrt":5, "pad":6, "hoy":7}'
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p = [("xkd", 1), ("kcw", 2), ("art", 3), ("hxm", 4),
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("qrt", 5), ("pad", 6), ("hoy", 7)]
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self.assertEqual(self.loads(s), eval(s))
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self.assertEqual(self.loads(s, object_pairs_hook=lambda x: x), p)
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self.assertEqual(self.json.load(StringIO(s),
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object_pairs_hook=lambda x: x), p)
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od = self.loads(s, object_pairs_hook=OrderedDict)
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self.assertEqual(od, OrderedDict(p))
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self.assertEqual(type(od), OrderedDict)
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# the object_pairs_hook takes priority over the object_hook
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self.assertEqual(self.loads(s, object_pairs_hook=OrderedDict,
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object_hook=lambda x: None),
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OrderedDict(p))
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# check that empty object literals work (see #17368)
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self.assertEqual(self.loads('{}', object_pairs_hook=OrderedDict),
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OrderedDict())
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self.assertEqual(self.loads('{"empty": {}}',
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object_pairs_hook=OrderedDict),
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OrderedDict([('empty', OrderedDict())]))
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def test_decoder_optimizations(self):
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# Several optimizations were made that skip over calls to
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# the whitespace regex, so this test is designed to try and
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# exercise the uncommon cases. The array cases are already covered.
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rval = self.loads('{ "key" : "value" , "k":"v" }')
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self.assertEqual(rval, {"key":"value", "k":"v"})
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def check_keys_reuse(self, source, loads):
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rval = loads(source)
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(a, b), (c, d) = sorted(rval[0]), sorted(rval[1])
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self.assertIs(a, c)
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self.assertIs(b, d)
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def test_keys_reuse(self):
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s = '[{"a_key": 1, "b_\xe9": 2}, {"a_key": 3, "b_\xe9": 4}]'
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self.check_keys_reuse(s, self.loads)
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decoder = self.json.decoder.JSONDecoder()
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self.check_keys_reuse(s, decoder.decode)
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self.assertFalse(decoder.memo)
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def test_extra_data(self):
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s = '[1, 2, 3]5'
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msg = 'Extra data'
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self.assertRaisesRegex(self.JSONDecodeError, msg, self.loads, s)
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def test_invalid_escape(self):
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s = '["abc\\y"]'
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msg = 'escape'
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self.assertRaisesRegex(self.JSONDecodeError, msg, self.loads, s)
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def test_invalid_input_type(self):
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msg = 'the JSON object must be str'
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for value in [1, 3.14, [], {}, None]:
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self.assertRaisesRegex(TypeError, msg, self.loads, value)
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def test_string_with_utf8_bom(self):
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# see #18958
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bom_json = "[1,2,3]".encode('utf-8-sig').decode('utf-8')
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with self.assertRaises(self.JSONDecodeError) as cm:
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self.loads(bom_json)
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self.assertIn('BOM', str(cm.exception))
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with self.assertRaises(self.JSONDecodeError) as cm:
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self.json.load(StringIO(bom_json))
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self.assertIn('BOM', str(cm.exception))
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# make sure that the BOM is not detected in the middle of a string
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bom_in_str = '"{}"'.format(''.encode('utf-8-sig').decode('utf-8'))
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self.assertEqual(self.loads(bom_in_str), '\ufeff')
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self.assertEqual(self.json.load(StringIO(bom_in_str)), '\ufeff')
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def test_negative_index(self):
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d = self.json.JSONDecoder()
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self.assertRaises(ValueError, d.raw_decode, 'a'*42, -50000)
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class TestPyDecode(TestDecode, PyTest): pass
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class TestCDecode(TestDecode, CTest): pass
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