aoc-2022/venv/Lib/site-packages/pandas/tests/io/json/test_ujson.py

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import calendar
import datetime
import decimal
import json
import locale
import math
import re
import time
import dateutil
import numpy as np
import pytest
import pytz
import pandas._libs.json as ujson
from pandas.compat import (
IS64,
is_platform_windows,
)
from pandas import (
DataFrame,
DatetimeIndex,
Index,
NaT,
PeriodIndex,
Series,
Timedelta,
Timestamp,
date_range,
)
import pandas._testing as tm
def _clean_dict(d):
"""
Sanitize dictionary for JSON by converting all keys to strings.
Parameters
----------
d : dict
The dictionary to convert.
Returns
-------
cleaned_dict : dict
"""
return {str(k): v for k, v in d.items()}
@pytest.fixture(
params=[None, "split", "records", "values", "index"] # Column indexed by default.
)
def orient(request):
return request.param
@pytest.fixture(params=[None, True])
def numpy(request):
return request.param
def get_int32_compat_dtype(numpy, orient):
# See GH#32527
dtype = np.int64
if not ((numpy is None or orient == "index") or (numpy is True and orient is None)):
if is_platform_windows():
dtype = np.int32
else:
dtype = np.intp
return dtype
class TestUltraJSONTests:
@pytest.mark.skipif(not IS64, reason="not compliant on 32-bit, xref #15865")
def test_encode_decimal(self):
sut = decimal.Decimal("1337.1337")
encoded = ujson.encode(sut, double_precision=15)
decoded = ujson.decode(encoded)
assert decoded == 1337.1337
sut = decimal.Decimal("0.95")
encoded = ujson.encode(sut, double_precision=1)
assert encoded == "1.0"
decoded = ujson.decode(encoded)
assert decoded == 1.0
sut = decimal.Decimal("0.94")
encoded = ujson.encode(sut, double_precision=1)
assert encoded == "0.9"
decoded = ujson.decode(encoded)
assert decoded == 0.9
sut = decimal.Decimal("1.95")
encoded = ujson.encode(sut, double_precision=1)
assert encoded == "2.0"
decoded = ujson.decode(encoded)
assert decoded == 2.0
sut = decimal.Decimal("-1.95")
encoded = ujson.encode(sut, double_precision=1)
assert encoded == "-2.0"
decoded = ujson.decode(encoded)
assert decoded == -2.0
sut = decimal.Decimal("0.995")
encoded = ujson.encode(sut, double_precision=2)
assert encoded == "1.0"
decoded = ujson.decode(encoded)
assert decoded == 1.0
sut = decimal.Decimal("0.9995")
encoded = ujson.encode(sut, double_precision=3)
assert encoded == "1.0"
decoded = ujson.decode(encoded)
assert decoded == 1.0
sut = decimal.Decimal("0.99999999999999944")
encoded = ujson.encode(sut, double_precision=15)
assert encoded == "1.0"
decoded = ujson.decode(encoded)
assert decoded == 1.0
@pytest.mark.parametrize("ensure_ascii", [True, False])
def test_encode_string_conversion(self, ensure_ascii):
string_input = "A string \\ / \b \f \n \r \t </script> &"
not_html_encoded = '"A string \\\\ \\/ \\b \\f \\n \\r \\t <\\/script> &"'
html_encoded = (
'"A string \\\\ \\/ \\b \\f \\n \\r \\t \\u003c\\/script\\u003e \\u0026"'
)
def helper(expected_output, **encode_kwargs):
output = ujson.encode(
string_input, ensure_ascii=ensure_ascii, **encode_kwargs
)
assert output == expected_output
assert string_input == json.loads(output)
assert string_input == ujson.decode(output)
# Default behavior assumes encode_html_chars=False.
helper(not_html_encoded)
# Make sure explicit encode_html_chars=False works.
helper(not_html_encoded, encode_html_chars=False)
# Make sure explicit encode_html_chars=True does the encoding.
helper(html_encoded, encode_html_chars=True)
@pytest.mark.parametrize(
"long_number", [-4342969734183514, -12345678901234.56789012, -528656961.4399388]
)
def test_double_long_numbers(self, long_number):
sut = {"a": long_number}
encoded = ujson.encode(sut, double_precision=15)
decoded = ujson.decode(encoded)
assert sut == decoded
def test_encode_non_c_locale(self):
lc_category = locale.LC_NUMERIC
# We just need one of these locales to work.
for new_locale in ("it_IT.UTF-8", "Italian_Italy"):
if tm.can_set_locale(new_locale, lc_category):
with tm.set_locale(new_locale, lc_category):
assert ujson.loads(ujson.dumps(4.78e60)) == 4.78e60
assert ujson.loads("4.78", precise_float=True) == 4.78
break
def test_decimal_decode_test_precise(self):
sut = {"a": 4.56}
encoded = ujson.encode(sut)
decoded = ujson.decode(encoded, precise_float=True)
assert sut == decoded
def test_encode_double_tiny_exponential(self):
num = 1e-40
assert num == ujson.decode(ujson.encode(num))
num = 1e-100
assert num == ujson.decode(ujson.encode(num))
num = -1e-45
assert num == ujson.decode(ujson.encode(num))
num = -1e-145
assert np.allclose(num, ujson.decode(ujson.encode(num)))
@pytest.mark.parametrize("unicode_key", ["key1", "بن"])
def test_encode_dict_with_unicode_keys(self, unicode_key):
unicode_dict = {unicode_key: "value1"}
assert unicode_dict == ujson.decode(ujson.encode(unicode_dict))
@pytest.mark.parametrize(
"double_input", [math.pi, -math.pi] # Should work with negatives too.
)
def test_encode_double_conversion(self, double_input):
output = ujson.encode(double_input)
assert round(double_input, 5) == round(json.loads(output), 5)
assert round(double_input, 5) == round(ujson.decode(output), 5)
def test_encode_with_decimal(self):
decimal_input = 1.0
output = ujson.encode(decimal_input)
assert output == "1.0"
def test_encode_array_of_nested_arrays(self):
nested_input = [[[[]]]] * 20
output = ujson.encode(nested_input)
assert nested_input == json.loads(output)
assert nested_input == ujson.decode(output)
nested_input = np.array(nested_input)
tm.assert_numpy_array_equal(
nested_input, ujson.decode(output, numpy=True, dtype=nested_input.dtype)
)
def test_encode_array_of_doubles(self):
doubles_input = [31337.31337, 31337.31337, 31337.31337, 31337.31337] * 10
output = ujson.encode(doubles_input)
assert doubles_input == json.loads(output)
assert doubles_input == ujson.decode(output)
tm.assert_numpy_array_equal(
np.array(doubles_input), ujson.decode(output, numpy=True)
)
def test_double_precision(self):
double_input = 30.012345678901234
output = ujson.encode(double_input, double_precision=15)
assert double_input == json.loads(output)
assert double_input == ujson.decode(output)
for double_precision in (3, 9):
output = ujson.encode(double_input, double_precision=double_precision)
rounded_input = round(double_input, double_precision)
assert rounded_input == json.loads(output)
assert rounded_input == ujson.decode(output)
@pytest.mark.parametrize(
"invalid_val",
[
20,
-1,
"9",
None,
],
)
def test_invalid_double_precision(self, invalid_val):
double_input = 30.12345678901234567890
expected_exception = ValueError if isinstance(invalid_val, int) else TypeError
msg = (
r"Invalid value '.*' for option 'double_precision', max is '15'|"
r"an integer is required \(got type |"
r"object cannot be interpreted as an integer"
)
with pytest.raises(expected_exception, match=msg):
ujson.encode(double_input, double_precision=invalid_val)
def test_encode_string_conversion2(self):
string_input = "A string \\ / \b \f \n \r \t"
output = ujson.encode(string_input)
assert string_input == json.loads(output)
assert string_input == ujson.decode(output)
assert output == '"A string \\\\ \\/ \\b \\f \\n \\r \\t"'
@pytest.mark.parametrize(
"unicode_input",
["Räksmörgås اسامة بن محمد بن عوض بن لادن", "\xe6\x97\xa5\xd1\x88"],
)
def test_encode_unicode_conversion(self, unicode_input):
enc = ujson.encode(unicode_input)
dec = ujson.decode(enc)
assert enc == json.dumps(unicode_input)
assert dec == json.loads(enc)
def test_encode_control_escaping(self):
escaped_input = "\x19"
enc = ujson.encode(escaped_input)
dec = ujson.decode(enc)
assert escaped_input == dec
assert enc == json.dumps(escaped_input)
def test_encode_unicode_surrogate_pair(self):
surrogate_input = "\xf0\x90\x8d\x86"
enc = ujson.encode(surrogate_input)
dec = ujson.decode(enc)
assert enc == json.dumps(surrogate_input)
assert dec == json.loads(enc)
def test_encode_unicode_4bytes_utf8(self):
four_bytes_input = "\xf0\x91\x80\xb0TRAILINGNORMAL"
enc = ujson.encode(four_bytes_input)
dec = ujson.decode(enc)
assert enc == json.dumps(four_bytes_input)
assert dec == json.loads(enc)
def test_encode_unicode_4bytes_utf8highest(self):
four_bytes_input = "\xf3\xbf\xbf\xbfTRAILINGNORMAL"
enc = ujson.encode(four_bytes_input)
dec = ujson.decode(enc)
assert enc == json.dumps(four_bytes_input)
assert dec == json.loads(enc)
def test_encode_array_in_array(self):
arr_in_arr_input = [[[[]]]]
output = ujson.encode(arr_in_arr_input)
assert arr_in_arr_input == json.loads(output)
assert output == json.dumps(arr_in_arr_input)
assert arr_in_arr_input == ujson.decode(output)
tm.assert_numpy_array_equal(
np.array(arr_in_arr_input), ujson.decode(output, numpy=True)
)
@pytest.mark.parametrize(
"num_input",
[
31337,
-31337, # Negative number.
-9223372036854775808, # Large negative number.
],
)
def test_encode_num_conversion(self, num_input):
output = ujson.encode(num_input)
assert num_input == json.loads(output)
assert output == json.dumps(num_input)
assert num_input == ujson.decode(output)
def test_encode_list_conversion(self):
list_input = [1, 2, 3, 4]
output = ujson.encode(list_input)
assert list_input == json.loads(output)
assert list_input == ujson.decode(output)
tm.assert_numpy_array_equal(
np.array(list_input), ujson.decode(output, numpy=True)
)
def test_encode_dict_conversion(self):
dict_input = {"k1": 1, "k2": 2, "k3": 3, "k4": 4}
output = ujson.encode(dict_input)
assert dict_input == json.loads(output)
assert dict_input == ujson.decode(output)
@pytest.mark.parametrize("builtin_value", [None, True, False])
def test_encode_builtin_values_conversion(self, builtin_value):
output = ujson.encode(builtin_value)
assert builtin_value == json.loads(output)
assert output == json.dumps(builtin_value)
assert builtin_value == ujson.decode(output)
def test_encode_datetime_conversion(self):
datetime_input = datetime.datetime.fromtimestamp(time.time())
output = ujson.encode(datetime_input, date_unit="s")
expected = calendar.timegm(datetime_input.utctimetuple())
assert int(expected) == json.loads(output)
assert int(expected) == ujson.decode(output)
def test_encode_date_conversion(self):
date_input = datetime.date.fromtimestamp(time.time())
output = ujson.encode(date_input, date_unit="s")
tup = (date_input.year, date_input.month, date_input.day, 0, 0, 0)
expected = calendar.timegm(tup)
assert int(expected) == json.loads(output)
assert int(expected) == ujson.decode(output)
@pytest.mark.parametrize(
"test",
[datetime.time(), datetime.time(1, 2, 3), datetime.time(10, 12, 15, 343243)],
)
def test_encode_time_conversion_basic(self, test):
output = ujson.encode(test)
expected = f'"{test.isoformat()}"'
assert expected == output
def test_encode_time_conversion_pytz(self):
# see gh-11473: to_json segfaults with timezone-aware datetimes
test = datetime.time(10, 12, 15, 343243, pytz.utc)
output = ujson.encode(test)
expected = f'"{test.isoformat()}"'
assert expected == output
def test_encode_time_conversion_dateutil(self):
# see gh-11473: to_json segfaults with timezone-aware datetimes
test = datetime.time(10, 12, 15, 343243, dateutil.tz.tzutc())
output = ujson.encode(test)
expected = f'"{test.isoformat()}"'
assert expected == output
@pytest.mark.parametrize(
"decoded_input", [NaT, np.datetime64("NaT"), np.nan, np.inf, -np.inf]
)
def test_encode_as_null(self, decoded_input):
assert ujson.encode(decoded_input) == "null", "Expected null"
def test_datetime_units(self):
val = datetime.datetime(2013, 8, 17, 21, 17, 12, 215504)
stamp = Timestamp(val)
roundtrip = ujson.decode(ujson.encode(val, date_unit="s"))
assert roundtrip == stamp.value // 10**9
roundtrip = ujson.decode(ujson.encode(val, date_unit="ms"))
assert roundtrip == stamp.value // 10**6
roundtrip = ujson.decode(ujson.encode(val, date_unit="us"))
assert roundtrip == stamp.value // 10**3
roundtrip = ujson.decode(ujson.encode(val, date_unit="ns"))
assert roundtrip == stamp.value
msg = "Invalid value 'foo' for option 'date_unit'"
with pytest.raises(ValueError, match=msg):
ujson.encode(val, date_unit="foo")
def test_encode_to_utf8(self):
unencoded = "\xe6\x97\xa5\xd1\x88"
enc = ujson.encode(unencoded, ensure_ascii=False)
dec = ujson.decode(enc)
assert enc == json.dumps(unencoded, ensure_ascii=False)
assert dec == json.loads(enc)
def test_decode_from_unicode(self):
unicode_input = '{"obj": 31337}'
dec1 = ujson.decode(unicode_input)
dec2 = ujson.decode(str(unicode_input))
assert dec1 == dec2
def test_encode_recursion_max(self):
# 8 is the max recursion depth
class O2:
member = 0
pass
class O1:
member = 0
pass
decoded_input = O1()
decoded_input.member = O2()
decoded_input.member.member = decoded_input
with pytest.raises(OverflowError, match="Maximum recursion level reached"):
ujson.encode(decoded_input)
def test_decode_jibberish(self):
jibberish = "fdsa sda v9sa fdsa"
msg = "Unexpected character found when decoding 'false'"
with pytest.raises(ValueError, match=msg):
ujson.decode(jibberish)
@pytest.mark.parametrize(
"broken_json",
[
"[", # Broken array start.
"{", # Broken object start.
"]", # Broken array end.
"}", # Broken object end.
],
)
def test_decode_broken_json(self, broken_json):
msg = "Expected object or value"
with pytest.raises(ValueError, match=msg):
ujson.decode(broken_json)
@pytest.mark.parametrize("too_big_char", ["[", "{"])
def test_decode_depth_too_big(self, too_big_char):
with pytest.raises(ValueError, match="Reached object decoding depth limit"):
ujson.decode(too_big_char * (1024 * 1024))
@pytest.mark.parametrize(
"bad_string",
[
'"TESTING', # Unterminated.
'"TESTING\\"', # Unterminated escape.
"tru", # Broken True.
"fa", # Broken False.
"n", # Broken None.
],
)
def test_decode_bad_string(self, bad_string):
msg = (
"Unexpected character found when decoding|"
"Unmatched ''\"' when when decoding 'string'"
)
with pytest.raises(ValueError, match=msg):
ujson.decode(bad_string)
@pytest.mark.parametrize(
"broken_json, err_msg",
[
(
'{{1337:""}}',
"Key name of object must be 'string' when decoding 'object'",
),
('{{"key":"}', "Unmatched ''\"' when when decoding 'string'"),
("[[[true", "Unexpected character found when decoding array value (2)"),
],
)
def test_decode_broken_json_leak(self, broken_json, err_msg):
for _ in range(1000):
with pytest.raises(ValueError, match=re.escape(err_msg)):
ujson.decode(broken_json)
@pytest.mark.parametrize(
"invalid_dict",
[
"{{{{31337}}}}", # No key.
'{{{{"key":}}}}', # No value.
'{{{{"key"}}}}', # No colon or value.
],
)
def test_decode_invalid_dict(self, invalid_dict):
msg = (
"Key name of object must be 'string' when decoding 'object'|"
"No ':' found when decoding object value|"
"Expected object or value"
)
with pytest.raises(ValueError, match=msg):
ujson.decode(invalid_dict)
@pytest.mark.parametrize(
"numeric_int_as_str", ["31337", "-31337"] # Should work with negatives.
)
def test_decode_numeric_int(self, numeric_int_as_str):
assert int(numeric_int_as_str) == ujson.decode(numeric_int_as_str)
def test_encode_null_character(self):
wrapped_input = "31337 \x00 1337"
output = ujson.encode(wrapped_input)
assert wrapped_input == json.loads(output)
assert output == json.dumps(wrapped_input)
assert wrapped_input == ujson.decode(output)
alone_input = "\x00"
output = ujson.encode(alone_input)
assert alone_input == json.loads(output)
assert output == json.dumps(alone_input)
assert alone_input == ujson.decode(output)
assert '" \\u0000\\r\\n "' == ujson.dumps(" \u0000\r\n ")
def test_decode_null_character(self):
wrapped_input = '"31337 \\u0000 31337"'
assert ujson.decode(wrapped_input) == json.loads(wrapped_input)
def test_encode_list_long_conversion(self):
long_input = [
9223372036854775807,
9223372036854775807,
9223372036854775807,
9223372036854775807,
9223372036854775807,
9223372036854775807,
]
output = ujson.encode(long_input)
assert long_input == json.loads(output)
assert long_input == ujson.decode(output)
tm.assert_numpy_array_equal(
np.array(long_input), ujson.decode(output, numpy=True, dtype=np.int64)
)
@pytest.mark.parametrize("long_input", [9223372036854775807, 18446744073709551615])
def test_encode_long_conversion(self, long_input):
output = ujson.encode(long_input)
assert long_input == json.loads(output)
assert output == json.dumps(long_input)
assert long_input == ujson.decode(output)
@pytest.mark.parametrize("bigNum", [2**64, -(2**63) - 1])
def test_dumps_ints_larger_than_maxsize(self, bigNum):
encoding = ujson.encode(bigNum)
assert str(bigNum) == encoding
with pytest.raises(
ValueError,
match="Value is too big|Value is too small",
):
assert ujson.loads(encoding) == bigNum
@pytest.mark.parametrize(
"int_exp", ["1337E40", "1.337E40", "1337E+9", "1.337e+40", "1.337E-4"]
)
def test_decode_numeric_int_exp(self, int_exp):
assert ujson.decode(int_exp) == json.loads(int_exp)
def test_loads_non_str_bytes_raises(self):
msg = "Expected 'str' or 'bytes'"
with pytest.raises(TypeError, match=msg):
ujson.loads(None)
@pytest.mark.parametrize("val", [3590016419, 2**31, 2**32, (2**32) - 1])
def test_decode_number_with_32bit_sign_bit(self, val):
# Test that numbers that fit within 32 bits but would have the
# sign bit set (2**31 <= x < 2**32) are decoded properly.
doc = f'{{"id": {val}}}'
assert ujson.decode(doc)["id"] == val
def test_encode_big_escape(self):
# Make sure no Exception is raised.
for _ in range(10):
base = "\u00e5".encode()
escape_input = base * 1024 * 1024 * 2
ujson.encode(escape_input)
def test_decode_big_escape(self):
# Make sure no Exception is raised.
for _ in range(10):
base = "\u00e5".encode()
quote = b'"'
escape_input = quote + (base * 1024 * 1024 * 2) + quote
ujson.decode(escape_input)
def test_to_dict(self):
d = {"key": 31337}
class DictTest:
def toDict(self):
return d
o = DictTest()
output = ujson.encode(o)
dec = ujson.decode(output)
assert dec == d
def test_default_handler(self):
class _TestObject:
def __init__(self, val) -> None:
self.val = val
@property
def recursive_attr(self):
return _TestObject("recursive_attr")
def __str__(self) -> str:
return str(self.val)
msg = "Maximum recursion level reached"
with pytest.raises(OverflowError, match=msg):
ujson.encode(_TestObject("foo"))
assert '"foo"' == ujson.encode(_TestObject("foo"), default_handler=str)
def my_handler(_):
return "foobar"
assert '"foobar"' == ujson.encode(
_TestObject("foo"), default_handler=my_handler
)
def my_handler_raises(_):
raise TypeError("I raise for anything")
with pytest.raises(TypeError, match="I raise for anything"):
ujson.encode(_TestObject("foo"), default_handler=my_handler_raises)
def my_int_handler(_):
return 42
assert (
ujson.decode(
ujson.encode(_TestObject("foo"), default_handler=my_int_handler)
)
== 42
)
def my_obj_handler(_):
return datetime.datetime(2013, 2, 3)
assert ujson.decode(
ujson.encode(datetime.datetime(2013, 2, 3))
) == ujson.decode(
ujson.encode(_TestObject("foo"), default_handler=my_obj_handler)
)
obj_list = [_TestObject("foo"), _TestObject("bar")]
assert json.loads(json.dumps(obj_list, default=str)) == ujson.decode(
ujson.encode(obj_list, default_handler=str)
)
def test_encode_object(self):
class _TestObject:
def __init__(self, a, b, _c, d) -> None:
self.a = a
self.b = b
self._c = _c
self.d = d
def e(self):
return 5
# JSON keys should be all non-callable non-underscore attributes, see GH-42768
test_object = _TestObject(a=1, b=2, _c=3, d=4)
assert ujson.decode(ujson.encode(test_object)) == {"a": 1, "b": 2, "d": 4}
class TestNumpyJSONTests:
@pytest.mark.parametrize("bool_input", [True, False])
def test_bool(self, bool_input):
b = bool(bool_input)
assert ujson.decode(ujson.encode(b)) == b
def test_bool_array(self):
bool_array = np.array(
[True, False, True, True, False, True, False, False], dtype=bool
)
output = np.array(ujson.decode(ujson.encode(bool_array)), dtype=bool)
tm.assert_numpy_array_equal(bool_array, output)
def test_int(self, any_int_numpy_dtype):
klass = np.dtype(any_int_numpy_dtype).type
num = klass(1)
assert klass(ujson.decode(ujson.encode(num))) == num
def test_int_array(self, any_int_numpy_dtype):
arr = np.arange(100, dtype=int)
arr_input = arr.astype(any_int_numpy_dtype)
arr_output = np.array(
ujson.decode(ujson.encode(arr_input)), dtype=any_int_numpy_dtype
)
tm.assert_numpy_array_equal(arr_input, arr_output)
def test_int_max(self, any_int_numpy_dtype):
if any_int_numpy_dtype in ("int64", "uint64") and not IS64:
pytest.skip("Cannot test 64-bit integer on 32-bit platform")
klass = np.dtype(any_int_numpy_dtype).type
# uint64 max will always overflow,
# as it's encoded to signed.
if any_int_numpy_dtype == "uint64":
num = np.iinfo("int64").max
else:
num = np.iinfo(any_int_numpy_dtype).max
assert klass(ujson.decode(ujson.encode(num))) == num
def test_float(self, float_numpy_dtype):
klass = np.dtype(float_numpy_dtype).type
num = klass(256.2013)
assert klass(ujson.decode(ujson.encode(num))) == num
def test_float_array(self, float_numpy_dtype):
arr = np.arange(12.5, 185.72, 1.7322, dtype=float)
float_input = arr.astype(float_numpy_dtype)
float_output = np.array(
ujson.decode(ujson.encode(float_input, double_precision=15)),
dtype=float_numpy_dtype,
)
tm.assert_almost_equal(float_input, float_output)
def test_float_max(self, float_numpy_dtype):
klass = np.dtype(float_numpy_dtype).type
num = klass(np.finfo(float_numpy_dtype).max / 10)
tm.assert_almost_equal(
klass(ujson.decode(ujson.encode(num, double_precision=15))), num
)
def test_array_basic(self):
arr = np.arange(96)
arr = arr.reshape((2, 2, 2, 2, 3, 2))
tm.assert_numpy_array_equal(np.array(ujson.decode(ujson.encode(arr))), arr)
tm.assert_numpy_array_equal(ujson.decode(ujson.encode(arr), numpy=True), arr)
@pytest.mark.parametrize("shape", [(10, 10), (5, 5, 4), (100, 1)])
def test_array_reshaped(self, shape):
arr = np.arange(100)
arr = arr.reshape(shape)
tm.assert_numpy_array_equal(np.array(ujson.decode(ujson.encode(arr))), arr)
tm.assert_numpy_array_equal(ujson.decode(ujson.encode(arr), numpy=True), arr)
def test_array_list(self):
arr_list = [
"a",
[],
{},
{},
[],
42,
97.8,
["a", "b"],
{"key": "val"},
]
arr = np.array(arr_list, dtype=object)
result = np.array(ujson.decode(ujson.encode(arr)), dtype=object)
tm.assert_numpy_array_equal(result, arr)
def test_array_float(self):
dtype = np.float32
arr = np.arange(100.202, 200.202, 1, dtype=dtype)
arr = arr.reshape((5, 5, 4))
arr_out = np.array(ujson.decode(ujson.encode(arr)), dtype=dtype)
tm.assert_almost_equal(arr, arr_out)
arr_out = ujson.decode(ujson.encode(arr), numpy=True, dtype=dtype)
tm.assert_almost_equal(arr, arr_out)
def test_0d_array(self):
# gh-18878
msg = re.escape("array(1) (0d array) is not JSON serializable at the moment")
with pytest.raises(TypeError, match=msg):
ujson.encode(np.array(1))
@pytest.mark.parametrize(
"bad_input,exc_type,err_msg,kwargs",
[
(
[{}, []],
ValueError,
r"nesting not supported for object or variable length dtypes",
{},
),
(
[42, None],
TypeError,
r"int\(\) argument must be a string, a bytes-like object or a( real)? "
r"number, not 'NoneType'",
{},
),
(
[["a"], 42],
ValueError,
r"Cannot decode multidimensional arrays with variable length elements "
r"to numpy",
{},
),
(
[42, {}, "a"],
TypeError,
r"int\(\) argument must be a string, a bytes-like object or a( real)? "
r"number, not 'dict'",
{},
),
(
[42, ["a"], 42],
ValueError,
r"invalid literal for int\(\) with base 10: 'a'",
{},
),
(
["a", "b", [], "c"],
ValueError,
r"nesting not supported for object or variable length dtypes",
{},
),
(
[{"a": "b"}],
ValueError,
r"Cannot decode multidimensional arrays with variable length elements "
r"to numpy",
{"labelled": True},
),
(
{"a": {"b": {"c": 42}}},
ValueError,
r"labels only supported up to 2 dimensions",
{"labelled": True},
),
(
[{"a": 42, "b": 23}, {"c": 17}],
ValueError,
r"cannot reshape array of size 3 into shape \(2,1\)",
{"labelled": True},
),
],
)
def test_array_numpy_except(self, bad_input, exc_type, err_msg, kwargs):
with pytest.raises(exc_type, match=err_msg):
ujson.decode(ujson.dumps(bad_input), numpy=True, **kwargs)
def test_array_numpy_labelled(self):
labelled_input = {"a": []}
output = ujson.loads(ujson.dumps(labelled_input), numpy=True, labelled=True)
assert (np.empty((1, 0)) == output[0]).all()
assert (np.array(["a"]) == output[1]).all()
assert output[2] is None
labelled_input = [{"a": 42}]
output = ujson.loads(ujson.dumps(labelled_input), numpy=True, labelled=True)
assert (np.array(["a"]) == output[2]).all()
assert (np.array([42]) == output[0]).all()
assert output[1] is None
# see gh-10837: write out the dump explicitly
# so there is no dependency on iteration order
input_dumps = '[{"a": 42, "b":31}, {"a": 24, "c": 99}, {"a": 2.4, "b": 78}]'
output = ujson.loads(input_dumps, numpy=True, labelled=True)
expected_vals = np.array([42, 31, 24, 99, 2.4, 78], dtype=int).reshape((3, 2))
assert (expected_vals == output[0]).all()
assert output[1] is None
assert (np.array(["a", "b"]) == output[2]).all()
input_dumps = (
'{"1": {"a": 42, "b":31}, "2": {"a": 24, "c": 99}, '
'"3": {"a": 2.4, "b": 78}}'
)
output = ujson.loads(input_dumps, numpy=True, labelled=True)
expected_vals = np.array([42, 31, 24, 99, 2.4, 78], dtype=int).reshape((3, 2))
assert (expected_vals == output[0]).all()
assert (np.array(["1", "2", "3"]) == output[1]).all()
assert (np.array(["a", "b"]) == output[2]).all()
class TestPandasJSONTests:
def test_dataframe(self, request, orient, numpy):
if orient == "records" and numpy:
request.node.add_marker(
pytest.mark.xfail(reason=f"Not idiomatic pandas if orient={orient}")
)
dtype = get_int32_compat_dtype(numpy, orient)
df = DataFrame(
[[1, 2, 3], [4, 5, 6]],
index=["a", "b"],
columns=["x", "y", "z"],
dtype=dtype,
)
encode_kwargs = {} if orient is None else {"orient": orient}
decode_kwargs = {} if numpy is None else {"numpy": numpy}
assert (df.dtypes == dtype).all()
output = ujson.decode(ujson.encode(df, **encode_kwargs), **decode_kwargs)
assert (df.dtypes == dtype).all()
# Ensure proper DataFrame initialization.
if orient == "split":
dec = _clean_dict(output)
output = DataFrame(**dec)
else:
output = DataFrame(output)
# Corrections to enable DataFrame comparison.
if orient == "values":
df.columns = [0, 1, 2]
df.index = [0, 1]
elif orient == "records":
df.index = [0, 1]
elif orient == "index":
df = df.transpose()
assert (df.dtypes == dtype).all()
tm.assert_frame_equal(output, df)
def test_dataframe_nested(self, orient):
df = DataFrame(
[[1, 2, 3], [4, 5, 6]], index=["a", "b"], columns=["x", "y", "z"]
)
nested = {"df1": df, "df2": df.copy()}
kwargs = {} if orient is None else {"orient": orient}
exp = {
"df1": ujson.decode(ujson.encode(df, **kwargs)),
"df2": ujson.decode(ujson.encode(df, **kwargs)),
}
assert ujson.decode(ujson.encode(nested, **kwargs)) == exp
def test_dataframe_numpy_labelled(self, orient, request):
if orient in ("split", "values"):
request.node.add_marker(
pytest.mark.xfail(reason=f"{orient} incompatible for labelled=True")
)
df = DataFrame(
[[1, 2, 3], [4, 5, 6]],
index=["a", "b"],
columns=["x", "y", "z"],
dtype=int,
)
kwargs = {} if orient is None else {"orient": orient}
output = DataFrame(
*ujson.decode(ujson.encode(df, **kwargs), numpy=True, labelled=True)
)
if orient is None:
df = df.T
elif orient == "records":
df.index = [0, 1]
tm.assert_frame_equal(output, df)
def test_series(self, orient, numpy):
dtype = get_int32_compat_dtype(numpy, orient)
s = Series(
[10, 20, 30, 40, 50, 60],
name="series",
index=[6, 7, 8, 9, 10, 15],
dtype=dtype,
).sort_values()
assert s.dtype == dtype
encode_kwargs = {} if orient is None else {"orient": orient}
decode_kwargs = {} if numpy is None else {"numpy": numpy}
output = ujson.decode(ujson.encode(s, **encode_kwargs), **decode_kwargs)
assert s.dtype == dtype
if orient == "split":
dec = _clean_dict(output)
output = Series(**dec)
else:
output = Series(output)
if orient in (None, "index"):
s.name = None
output = output.sort_values()
s.index = ["6", "7", "8", "9", "10", "15"]
elif orient in ("records", "values"):
s.name = None
s.index = [0, 1, 2, 3, 4, 5]
assert s.dtype == dtype
tm.assert_series_equal(output, s)
def test_series_nested(self, orient):
s = Series(
[10, 20, 30, 40, 50, 60], name="series", index=[6, 7, 8, 9, 10, 15]
).sort_values()
nested = {"s1": s, "s2": s.copy()}
kwargs = {} if orient is None else {"orient": orient}
exp = {
"s1": ujson.decode(ujson.encode(s, **kwargs)),
"s2": ujson.decode(ujson.encode(s, **kwargs)),
}
assert ujson.decode(ujson.encode(nested, **kwargs)) == exp
def test_index(self):
i = Index([23, 45, 18, 98, 43, 11], name="index")
# Column indexed.
output = Index(ujson.decode(ujson.encode(i)), name="index")
tm.assert_index_equal(i, output)
output = Index(ujson.decode(ujson.encode(i), numpy=True), name="index")
tm.assert_index_equal(i, output)
dec = _clean_dict(ujson.decode(ujson.encode(i, orient="split")))
output = Index(**dec)
tm.assert_index_equal(i, output)
assert i.name == output.name
dec = _clean_dict(ujson.decode(ujson.encode(i, orient="split"), numpy=True))
output = Index(**dec)
tm.assert_index_equal(i, output)
assert i.name == output.name
output = Index(ujson.decode(ujson.encode(i, orient="values")), name="index")
tm.assert_index_equal(i, output)
output = Index(
ujson.decode(ujson.encode(i, orient="values"), numpy=True), name="index"
)
tm.assert_index_equal(i, output)
output = Index(ujson.decode(ujson.encode(i, orient="records")), name="index")
tm.assert_index_equal(i, output)
output = Index(
ujson.decode(ujson.encode(i, orient="records"), numpy=True), name="index"
)
tm.assert_index_equal(i, output)
output = Index(ujson.decode(ujson.encode(i, orient="index")), name="index")
tm.assert_index_equal(i, output)
output = Index(
ujson.decode(ujson.encode(i, orient="index"), numpy=True), name="index"
)
tm.assert_index_equal(i, output)
def test_datetime_index(self):
date_unit = "ns"
# freq doesn't round-trip
rng = DatetimeIndex(list(date_range("1/1/2000", periods=20)), freq=None)
encoded = ujson.encode(rng, date_unit=date_unit)
decoded = DatetimeIndex(np.array(ujson.decode(encoded)))
tm.assert_index_equal(rng, decoded)
ts = Series(np.random.randn(len(rng)), index=rng)
decoded = Series(ujson.decode(ujson.encode(ts, date_unit=date_unit)))
idx_values = decoded.index.values.astype(np.int64)
decoded.index = DatetimeIndex(idx_values)
tm.assert_series_equal(ts, decoded)
@pytest.mark.parametrize(
"invalid_arr",
[
"[31337,]", # Trailing comma.
"[,31337]", # Leading comma.
"[]]", # Unmatched bracket.
"[,]", # Only comma.
],
)
def test_decode_invalid_array(self, invalid_arr):
msg = (
"Expected object or value|Trailing data|"
"Unexpected character found when decoding array value"
)
with pytest.raises(ValueError, match=msg):
ujson.decode(invalid_arr)
@pytest.mark.parametrize("arr", [[], [31337]])
def test_decode_array(self, arr):
assert arr == ujson.decode(str(arr))
@pytest.mark.parametrize("extreme_num", [9223372036854775807, -9223372036854775808])
def test_decode_extreme_numbers(self, extreme_num):
assert extreme_num == ujson.decode(str(extreme_num))
@pytest.mark.parametrize("too_extreme_num", [f"{2**64}", f"{-2**63-1}"])
def test_decode_too_extreme_numbers(self, too_extreme_num):
with pytest.raises(
ValueError,
match="Value is too big|Value is too small",
):
ujson.decode(too_extreme_num)
def test_decode_with_trailing_whitespaces(self):
assert {} == ujson.decode("{}\n\t ")
def test_decode_with_trailing_non_whitespaces(self):
with pytest.raises(ValueError, match="Trailing data"):
ujson.decode("{}\n\t a")
@pytest.mark.parametrize("value", [f"{2**64}", f"{-2**63-1}"])
def test_decode_array_with_big_int(self, value):
with pytest.raises(
ValueError,
match="Value is too big|Value is too small",
):
ujson.loads(value)
@pytest.mark.parametrize(
"float_number",
[
1.1234567893,
1.234567893,
1.34567893,
1.4567893,
1.567893,
1.67893,
1.7893,
1.893,
1.3,
],
)
@pytest.mark.parametrize("sign", [-1, 1])
def test_decode_floating_point(self, sign, float_number):
float_number *= sign
tm.assert_almost_equal(float_number, ujson.loads(str(float_number)), rtol=1e-15)
def test_encode_big_set(self):
s = set()
for x in range(0, 100000):
s.add(x)
# Make sure no Exception is raised.
ujson.encode(s)
def test_encode_empty_set(self):
assert "[]" == ujson.encode(set())
def test_encode_set(self):
s = {1, 2, 3, 4, 5, 6, 7, 8, 9}
enc = ujson.encode(s)
dec = ujson.decode(enc)
for v in dec:
assert v in s
@pytest.mark.parametrize(
"td",
[
Timedelta(days=366),
Timedelta(days=-1),
Timedelta(hours=13, minutes=5, seconds=5),
Timedelta(hours=13, minutes=20, seconds=30),
Timedelta(days=-1, nanoseconds=5),
Timedelta(nanoseconds=1),
Timedelta(microseconds=1, nanoseconds=1),
Timedelta(milliseconds=1, microseconds=1, nanoseconds=1),
Timedelta(milliseconds=999, microseconds=999, nanoseconds=999),
],
)
def test_encode_timedelta_iso(self, td):
# GH 28256
result = ujson.encode(td, iso_dates=True)
expected = f'"{td.isoformat()}"'
assert result == expected
def test_encode_periodindex(self):
# GH 46683
p = PeriodIndex(["2022-04-06", "2022-04-07"], freq="D")
df = DataFrame(index=p)
assert df.to_json() == "{}"