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import datetime as dt
import uuid
import ipaddress
import decimal
import math
import pytest
from marshmallow import EXCLUDE, INCLUDE, RAISE, fields, Schema, validate
from marshmallow.exceptions import ValidationError
from marshmallow.validate import Equal
from tests.base import assert_date_equal, assert_time_equal, central, ALL_FIELDS
class TestDeserializingNone:
@pytest.mark.parametrize("FieldClass", ALL_FIELDS)
def test_fields_allow_none_deserialize_to_none(self, FieldClass):
field = FieldClass(allow_none=True)
field.deserialize(None) is None
# https://github.com/marshmallow-code/marshmallow/issues/111
@pytest.mark.parametrize("FieldClass", ALL_FIELDS)
def test_fields_dont_allow_none_by_default(self, FieldClass):
field = FieldClass()
with pytest.raises(ValidationError, match="Field may not be null."):
field.deserialize(None)
def test_allow_none_is_true_if_missing_is_true(self):
field = fields.Field(missing=None)
assert field.allow_none is True
field.deserialize(None) is None
def test_list_field_deserialize_none_to_none(self):
field = fields.List(fields.String(allow_none=True), allow_none=True)
assert field.deserialize(None) is None
def test_tuple_field_deserialize_none_to_none(self):
field = fields.Tuple([fields.String()], allow_none=True)
assert field.deserialize(None) is None
def test_list_of_nested_allow_none_deserialize_none_to_none(self):
field = fields.List(fields.Nested(Schema(), allow_none=True))
assert field.deserialize([None]) == [None]
def test_list_of_nested_non_allow_none_deserialize_none_to_validation_error(self):
field = fields.List(fields.Nested(Schema(), allow_none=False))
with pytest.raises(ValidationError):
field.deserialize([None])
class TestFieldDeserialization:
def test_float_field_deserialization(self):
field = fields.Float()
assert math.isclose(field.deserialize("12.3"), 12.3)
assert math.isclose(field.deserialize(12.3), 12.3)
@pytest.mark.parametrize("in_val", ["bad", "", {}, True, False])
def test_invalid_float_field_deserialization(self, in_val):
field = fields.Float()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_val)
assert excinfo.value.args[0] == "Not a valid number."
def test_float_field_overflow(self):
field = fields.Float()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(2 ** 1024)
assert excinfo.value.args[0] == "Number too large."
def test_integer_field_deserialization(self):
field = fields.Integer()
assert field.deserialize("42") == 42
with pytest.raises(ValidationError) as excinfo:
field.deserialize("42.0")
assert excinfo.value.args[0] == "Not a valid integer."
with pytest.raises(ValidationError):
field.deserialize("bad")
assert excinfo.value.args[0] == "Not a valid integer."
with pytest.raises(ValidationError):
field.deserialize({})
assert excinfo.value.args[0] == "Not a valid integer."
def test_strict_integer_field_deserialization(self):
field = fields.Integer(strict=True)
assert field.deserialize(42) == 42
with pytest.raises(ValidationError) as excinfo:
field.deserialize(42.0)
assert excinfo.value.args[0] == "Not a valid integer."
with pytest.raises(ValidationError) as excinfo:
field.deserialize(decimal.Decimal("42.0"))
assert excinfo.value.args[0] == "Not a valid integer."
with pytest.raises(ValidationError) as excinfo:
field.deserialize("42")
assert excinfo.value.args[0] == "Not a valid integer."
def test_decimal_field_deserialization(self):
m1 = 12
m2 = "12.355"
m3 = decimal.Decimal(1)
m4 = 3.14
m5 = "abc"
m6 = [1, 2]
field = fields.Decimal()
assert isinstance(field.deserialize(m1), decimal.Decimal)
assert field.deserialize(m1) == decimal.Decimal(12)
assert isinstance(field.deserialize(m2), decimal.Decimal)
assert field.deserialize(m2) == decimal.Decimal("12.355")
assert isinstance(field.deserialize(m3), decimal.Decimal)
assert field.deserialize(m3) == decimal.Decimal(1)
assert isinstance(field.deserialize(m4), decimal.Decimal)
assert field.deserialize(m4).as_tuple() == (0, (3, 1, 4), -2)
with pytest.raises(ValidationError) as excinfo:
field.deserialize(m5)
assert excinfo.value.args[0] == "Not a valid number."
with pytest.raises(ValidationError) as excinfo:
field.deserialize(m6)
assert excinfo.value.args[0] == "Not a valid number."
def test_decimal_field_with_places(self):
m1 = 12
m2 = "12.355"
m3 = decimal.Decimal(1)
m4 = "abc"
m5 = [1, 2]
field = fields.Decimal(1)
assert isinstance(field.deserialize(m1), decimal.Decimal)
assert field.deserialize(m1) == decimal.Decimal(12)
assert isinstance(field.deserialize(m2), decimal.Decimal)
assert field.deserialize(m2) == decimal.Decimal("12.4")
assert isinstance(field.deserialize(m3), decimal.Decimal)
assert field.deserialize(m3) == decimal.Decimal(1)
with pytest.raises(ValidationError) as excinfo:
field.deserialize(m4)
assert excinfo.value.args[0] == "Not a valid number."
with pytest.raises(ValidationError) as excinfo:
field.deserialize(m5)
assert excinfo.value.args[0] == "Not a valid number."
def test_decimal_field_with_places_and_rounding(self):
m1 = 12
m2 = "12.355"
m3 = decimal.Decimal(1)
m4 = "abc"
m5 = [1, 2]
field = fields.Decimal(1, decimal.ROUND_DOWN)
assert isinstance(field.deserialize(m1), decimal.Decimal)
assert field.deserialize(m1) == decimal.Decimal(12)
assert isinstance(field.deserialize(m2), decimal.Decimal)
assert field.deserialize(m2) == decimal.Decimal("12.3")
assert isinstance(field.deserialize(m3), decimal.Decimal)
assert field.deserialize(m3) == decimal.Decimal(1)
with pytest.raises(ValidationError):
field.deserialize(m4)
with pytest.raises(ValidationError):
field.deserialize(m5)
def test_decimal_field_deserialization_string(self):
m1 = 12
m2 = "12.355"
m3 = decimal.Decimal(1)
m4 = "abc"
m5 = [1, 2]
field = fields.Decimal(as_string=True)
assert isinstance(field.deserialize(m1), decimal.Decimal)
assert field.deserialize(m1) == decimal.Decimal(12)
assert isinstance(field.deserialize(m2), decimal.Decimal)
assert field.deserialize(m2) == decimal.Decimal("12.355")
assert isinstance(field.deserialize(m3), decimal.Decimal)
assert field.deserialize(m3) == decimal.Decimal(1)
with pytest.raises(ValidationError):
field.deserialize(m4)
with pytest.raises(ValidationError):
field.deserialize(m5)
def test_decimal_field_special_values(self):
m1 = "-NaN"
m2 = "NaN"
m3 = "-sNaN"
m4 = "sNaN"
m5 = "-Infinity"
m6 = "Infinity"
m7 = "-0"
field = fields.Decimal(places=2, allow_nan=True)
m1d = field.deserialize(m1)
assert isinstance(m1d, decimal.Decimal)
assert m1d.is_qnan() and not m1d.is_signed()
m2d = field.deserialize(m2)
assert isinstance(m2d, decimal.Decimal)
assert m2d.is_qnan() and not m2d.is_signed()
m3d = field.deserialize(m3)
assert isinstance(m3d, decimal.Decimal)
assert m3d.is_qnan() and not m3d.is_signed()
m4d = field.deserialize(m4)
assert isinstance(m4d, decimal.Decimal)
assert m4d.is_qnan() and not m4d.is_signed()
m5d = field.deserialize(m5)
assert isinstance(m5d, decimal.Decimal)
assert m5d.is_infinite() and m5d.is_signed()
m6d = field.deserialize(m6)
assert isinstance(m6d, decimal.Decimal)
assert m6d.is_infinite() and not m6d.is_signed()
m7d = field.deserialize(m7)
assert isinstance(m7d, decimal.Decimal)
assert m7d.is_zero() and m7d.is_signed()
def test_decimal_field_special_values_not_permitted(self):
m1 = "-NaN"
m2 = "NaN"
m3 = "-sNaN"
m4 = "sNaN"
m5 = "-Infinity"
m6 = "Infinity"
m7 = "-0"
field = fields.Decimal(places=2)
with pytest.raises(ValidationError) as excinfo:
field.deserialize(m1)
assert str(excinfo.value.args[0]) == (
"Special numeric values (nan or infinity) are not permitted."
)
with pytest.raises(ValidationError):
field.deserialize(m2)
with pytest.raises(ValidationError):
field.deserialize(m3)
with pytest.raises(ValidationError):
field.deserialize(m4)
with pytest.raises(ValidationError):
field.deserialize(m5)
with pytest.raises(ValidationError):
field.deserialize(m6)
m7d = field.deserialize(m7)
assert isinstance(m7d, decimal.Decimal)
assert m7d.is_zero() and m7d.is_signed()
@pytest.mark.parametrize("allow_nan", (None, False, True))
@pytest.mark.parametrize("value", ("nan", "-nan", "inf", "-inf"))
def test_float_field_allow_nan(self, value, allow_nan):
if allow_nan is None:
# Test default case is False
field = fields.Float()
else:
field = fields.Float(allow_nan=allow_nan)
if allow_nan is True:
res = field.deserialize(value)
assert isinstance(res, float)
if value.endswith("nan"):
assert math.isnan(res)
else:
assert res == float(value)
else:
with pytest.raises(ValidationError) as excinfo:
field.deserialize(value)
assert str(excinfo.value.args[0]) == (
"Special numeric values (nan or infinity) are not permitted."
)
def test_string_field_deserialization(self):
field = fields.String()
assert field.deserialize("foo") == "foo"
assert field.deserialize(b"foo") == "foo"
# https://github.com/marshmallow-code/marshmallow/issues/231
with pytest.raises(ValidationError) as excinfo:
field.deserialize(42)
assert excinfo.value.args[0] == "Not a valid string."
with pytest.raises(ValidationError):
field.deserialize({})
def test_boolean_field_deserialization(self):
field = fields.Boolean()
assert field.deserialize(True) is True
assert field.deserialize(False) is False
assert field.deserialize("True") is True
assert field.deserialize("False") is False
assert field.deserialize("true") is True
assert field.deserialize("false") is False
assert field.deserialize("1") is True
assert field.deserialize("0") is False
assert field.deserialize("on") is True
assert field.deserialize("ON") is True
assert field.deserialize("On") is True
assert field.deserialize("off") is False
assert field.deserialize("OFF") is False
assert field.deserialize("Off") is False
assert field.deserialize("y") is True
assert field.deserialize("Y") is True
assert field.deserialize("yes") is True
assert field.deserialize("YES") is True
assert field.deserialize("Yes") is True
assert field.deserialize("n") is False
assert field.deserialize("N") is False
assert field.deserialize("no") is False
assert field.deserialize("NO") is False
assert field.deserialize("No") is False
assert field.deserialize(1) is True
assert field.deserialize(0) is False
with pytest.raises(ValidationError) as excinfo:
field.deserialize({})
assert excinfo.value.args[0] == "Not a valid boolean."
with pytest.raises(ValidationError) as excinfo:
field.deserialize(42)
with pytest.raises(ValidationError) as excinfo:
field.deserialize("invalid-string")
def test_boolean_field_deserialization_with_custom_truthy_values(self):
class MyBoolean(fields.Boolean):
truthy = {"yep"}
field = MyBoolean()
assert field.deserialize("yep") is True
field = fields.Boolean(truthy=("yep",))
assert field.deserialize("yep") is True
assert field.deserialize(False) is False
@pytest.mark.parametrize("in_val", ["notvalid", 123])
def test_boolean_field_deserialization_with_custom_truthy_values_invalid(
self, in_val
):
class MyBoolean(fields.Boolean):
truthy = {"yep"}
field = MyBoolean()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_val)
expected_msg = "Not a valid boolean."
assert str(excinfo.value.args[0]) == expected_msg
field = fields.Boolean(truthy=("yep",))
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_val)
expected_msg = "Not a valid boolean."
assert str(excinfo.value.args[0]) == expected_msg
field2 = MyBoolean(error_messages={"invalid": "bad input"})
with pytest.raises(ValidationError) as excinfo:
field2.deserialize(in_val)
assert str(excinfo.value.args[0]) == "bad input"
field2 = fields.Boolean(
truthy=("yep",), error_messages={"invalid": "bad input"}
)
def test_boolean_field_deserialization_with_empty_truthy(self):
field = fields.Boolean(truthy=())
assert field.deserialize("yep") is True
assert field.deserialize(True) is True
assert field.deserialize(False) is False
def test_boolean_field_deserialization_with_custom_falsy_values(self):
field = fields.Boolean(falsy=("nope",))
assert field.deserialize("nope") is False
assert field.deserialize(True) is True
def test_field_toggle_show_invalid_value_in_error_message(self):
error_messages = {"invalid": "Not valid: {input}"}
boolfield = fields.Boolean(error_messages=error_messages)
with pytest.raises(ValidationError) as excinfo:
boolfield.deserialize("notabool")
assert str(excinfo.value.args[0]) == "Not valid: notabool"
numfield = fields.Number(error_messages=error_messages)
with pytest.raises(ValidationError) as excinfo:
numfield.deserialize("notanum")
assert str(excinfo.value.args[0]) == "Not valid: notanum"
intfield = fields.Integer(error_messages=error_messages)
with pytest.raises(ValidationError) as excinfo:
intfield.deserialize("notanint")
assert str(excinfo.value.args[0]) == "Not valid: notanint"
date_error_messages = {"invalid": "Not a valid {obj_type}: {input}"}
datefield = fields.DateTime(error_messages=date_error_messages)
with pytest.raises(ValidationError) as excinfo:
datefield.deserialize("notadate")
assert str(excinfo.value.args[0]) == "Not a valid datetime: notadate"
@pytest.mark.parametrize(
"in_value",
[
"not-a-datetime",
42,
"",
[],
"2018",
"2018-01-01",
dt.datetime.now().strftime("%H:%M:%S %Y-%m-%d"),
dt.datetime.now().strftime("%m-%d-%Y %H:%M:%S"),
],
)
def test_invalid_datetime_deserialization(self, in_value):
field = fields.DateTime()
with pytest.raises(ValidationError, match="Not a valid datetime."):
field.deserialize(in_value)
def test_custom_date_format_datetime_field_deserialization(self):
# Datetime string with format "%H:%M:%S.%f %Y-%m-%d"
datestring = "10:11:12.123456 2019-01-02"
# Deserialization should fail when datestring is not of same format
field = fields.DateTime(format="%d-%m-%Y %H:%M:%S")
with pytest.raises(ValidationError, match="Not a valid datetime."):
field.deserialize(datestring)
field = fields.DateTime(format="%H:%M:%S.%f %Y-%m-%d")
assert field.deserialize(datestring) == dt.datetime(
2019, 1, 2, 10, 11, 12, 123456
)
field = fields.NaiveDateTime(format="%H:%M:%S.%f %Y-%m-%d")
assert field.deserialize(datestring) == dt.datetime(
2019, 1, 2, 10, 11, 12, 123456
)
field = fields.AwareDateTime(format="%H:%M:%S.%f %Y-%m-%d")
with pytest.raises(ValidationError, match="Not a valid aware datetime."):
field.deserialize(datestring)
@pytest.mark.parametrize("fmt", ["rfc", "rfc822"])
@pytest.mark.parametrize(
("value", "expected", "aware"),
[
(
"Sun, 10 Nov 2013 01:23:45 -0000",
dt.datetime(2013, 11, 10, 1, 23, 45),
False,
),
(
"Sun, 10 Nov 2013 01:23:45 +0000",
dt.datetime(2013, 11, 10, 1, 23, 45, tzinfo=dt.timezone.utc),
True,
),
(
"Sun, 10 Nov 2013 01:23:45 -0600",
central.localize(dt.datetime(2013, 11, 10, 1, 23, 45), is_dst=False),
True,
),
],
)
def test_rfc_datetime_field_deserialization(self, fmt, value, expected, aware):
field = fields.DateTime(format=fmt)
assert field.deserialize(value) == expected
field = fields.NaiveDateTime(format=fmt)
if aware:
with pytest.raises(ValidationError, match="Not a valid naive datetime."):
field.deserialize(value)
else:
assert field.deserialize(value) == expected
field = fields.AwareDateTime(format=fmt)
if not aware:
with pytest.raises(ValidationError, match="Not a valid aware datetime."):
field.deserialize(value)
else:
assert field.deserialize(value) == expected
@pytest.mark.parametrize("fmt", ["iso", "iso8601"])
@pytest.mark.parametrize(
("value", "expected", "aware"),
[
("2013-11-10T01:23:45", dt.datetime(2013, 11, 10, 1, 23, 45), False),
(
"2013-11-10T01:23:45+00:00",
dt.datetime(2013, 11, 10, 1, 23, 45, tzinfo=dt.timezone.utc),
True,
),
(
# Regression test for https://github.com/marshmallow-code/marshmallow/issues/1251
"2013-11-10T01:23:45.123+00:00",
dt.datetime(2013, 11, 10, 1, 23, 45, 123000, tzinfo=dt.timezone.utc),
True,
),
(
"2013-11-10T01:23:45.123456+00:00",
dt.datetime(2013, 11, 10, 1, 23, 45, 123456, tzinfo=dt.timezone.utc),
True,
),
(
"2013-11-10T01:23:45-06:00",
central.localize(dt.datetime(2013, 11, 10, 1, 23, 45), is_dst=False),
True,
),
],
)
def test_iso_datetime_field_deserialization(self, fmt, value, expected, aware):
field = fields.DateTime(format=fmt)
assert field.deserialize(value) == expected
field = fields.NaiveDateTime(format=fmt)
if aware:
with pytest.raises(ValidationError, match="Not a valid naive datetime."):
field.deserialize(value)
else:
assert field.deserialize(value) == expected
field = fields.AwareDateTime(format=fmt)
if not aware:
with pytest.raises(ValidationError, match="Not a valid aware datetime."):
field.deserialize(value)
else:
assert field.deserialize(value) == expected
@pytest.mark.parametrize(
("fmt", "timezone", "value", "expected"),
[
("iso", None, "2013-11-10T01:23:45", dt.datetime(2013, 11, 10, 1, 23, 45)),
(
"iso",
dt.timezone.utc,
"2013-11-10T01:23:45+00:00",
dt.datetime(2013, 11, 10, 1, 23, 45),
),
(
"iso",
central,
"2013-11-10T01:23:45-03:00",
dt.datetime(2013, 11, 9, 22, 23, 45),
),
(
"rfc",
None,
"Sun, 10 Nov 2013 01:23:45 -0000",
dt.datetime(2013, 11, 10, 1, 23, 45),
),
(
"rfc",
dt.timezone.utc,
"Sun, 10 Nov 2013 01:23:45 +0000",
dt.datetime(2013, 11, 10, 1, 23, 45),
),
(
"rfc",
central,
"Sun, 10 Nov 2013 01:23:45 -0300",
dt.datetime(2013, 11, 9, 22, 23, 45),
),
],
)
def test_naive_datetime_with_timezone(self, fmt, timezone, value, expected):
field = fields.NaiveDateTime(format=fmt, timezone=timezone)
assert field.deserialize(value) == expected
@pytest.mark.parametrize("timezone", (dt.timezone.utc, central))
@pytest.mark.parametrize(
("fmt", "value"),
[("iso", "2013-11-10T01:23:45"), ("rfc", "Sun, 10 Nov 2013 01:23:45")],
)
def test_aware_datetime_default_timezone(self, fmt, timezone, value):
field = fields.AwareDateTime(format=fmt, default_timezone=timezone)
assert field.deserialize(value) == dt.datetime(
2013, 11, 10, 1, 23, 45, tzinfo=timezone
)
def test_time_field_deserialization(self):
field = fields.Time()
t = dt.time(1, 23, 45)
t_formatted = t.isoformat()
result = field.deserialize(t_formatted)
assert isinstance(result, dt.time)
assert_time_equal(result, t)
# With microseconds
t2 = dt.time(1, 23, 45, 6789)
t2_formatted = t2.isoformat()
result2 = field.deserialize(t2_formatted)
assert_time_equal(result2, t2)
@pytest.mark.parametrize("in_data", ["badvalue", "", [], 42])
def test_invalid_time_field_deserialization(self, in_data):
field = fields.Time()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_data)
assert excinfo.value.args[0] == "Not a valid time."
def test_custom_time_format_time_field_deserialization(self):
# Time string with format "%f.%S:%M:%H"
timestring = "123456.12:11:10"
# Deserialization should fail when timestring is not of same format
field = fields.Time(format="%S:%M:%H")
with pytest.raises(ValidationError, match="Not a valid time."):
field.deserialize(timestring)
field = fields.Time(format="%f.%S:%M:%H")
assert field.deserialize(timestring) == dt.time(10, 11, 12, 123456)
@pytest.mark.parametrize("fmt", ["iso", "iso8601", None])
@pytest.mark.parametrize(
("value", "expected"),
[
("01:23:45", dt.time(1, 23, 45)),
("01:23:45+01:00", dt.time(1, 23, 45)),
("01:23:45.123", dt.time(1, 23, 45, 123000)),
("01:23:45.123456", dt.time(1, 23, 45, 123456)),
],
)
def test_iso_time_field_deserialization(self, fmt, value, expected):
if fmt is None:
field = fields.Time()
else:
field = fields.Time(format=fmt)
assert field.deserialize(value) == expected
def test_invalid_timedelta_precision(self):
with pytest.raises(ValueError, match='The precision must be "days",'):
fields.TimeDelta("invalid")
def test_timedelta_field_deserialization(self):
field = fields.TimeDelta()
result = field.deserialize("42")
assert isinstance(result, dt.timedelta)
assert result.days == 0
assert result.seconds == 42
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.SECONDS)
result = field.deserialize(100000)
assert result.days == 1
assert result.seconds == 13600
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.DAYS)
result = field.deserialize("-42")
assert isinstance(result, dt.timedelta)
assert result.days == -42
assert result.seconds == 0
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.MICROSECONDS)
result = field.deserialize(10 ** 6 + 1)
assert isinstance(result, dt.timedelta)
assert result.days == 0
assert result.seconds == 1
assert result.microseconds == 1
field = fields.TimeDelta(fields.TimeDelta.MICROSECONDS)
result = field.deserialize(86400 * 10 ** 6 + 1)
assert isinstance(result, dt.timedelta)
assert result.days == 1
assert result.seconds == 0
assert result.microseconds == 1
field = fields.TimeDelta()
result = field.deserialize(12.9)
assert isinstance(result, dt.timedelta)
assert result.days == 0
assert result.seconds == 12
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.WEEKS)
result = field.deserialize(1)
assert isinstance(result, dt.timedelta)
assert result.days == 7
assert result.seconds == 0
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.HOURS)
result = field.deserialize(25)
assert isinstance(result, dt.timedelta)
assert result.days == 1
assert result.seconds == 3600
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.MINUTES)
result = field.deserialize(1441)
assert isinstance(result, dt.timedelta)
assert result.days == 1
assert result.seconds == 60
assert result.microseconds == 0
field = fields.TimeDelta(fields.TimeDelta.MILLISECONDS)
result = field.deserialize(123456)
assert isinstance(result, dt.timedelta)
assert result.days == 0
assert result.seconds == 123
assert result.microseconds == 456000
@pytest.mark.parametrize("in_value", ["", "badvalue", [], 9999999999])
def test_invalid_timedelta_field_deserialization(self, in_value):
field = fields.TimeDelta(fields.TimeDelta.DAYS)
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_value)
assert excinfo.value.args[0] == "Not a valid period of time."
@pytest.mark.parametrize("format", (None, "%Y-%m-%d"))
def test_date_field_deserialization(self, format):
field = fields.Date(format=format)
d = dt.date(2014, 8, 21)
iso_date = d.isoformat()
result = field.deserialize(iso_date)
assert type(result) == dt.date
assert_date_equal(result, d)
@pytest.mark.parametrize(
"in_value", ["", 123, [], dt.date(2014, 8, 21).strftime("%d-%m-%Y")]
)
def test_invalid_date_field_deserialization(self, in_value):
field = fields.Date()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_value)
msg = "Not a valid date."
assert excinfo.value.args[0] == msg
def test_dict_field_deserialization(self):
data = {"foo": "bar"}
field = fields.Dict()
load = field.deserialize(data)
assert load == {"foo": "bar"}
# Check load is a distinct object
load["foo"] = "baz"
assert data["foo"] == "bar"
with pytest.raises(ValidationError) as excinfo:
field.deserialize("baddict")
assert excinfo.value.args[0] == "Not a valid mapping type."
def test_structured_dict_value_deserialization(self):
field = fields.Dict(values=fields.List(fields.Str))
assert field.deserialize({"foo": ["bar", "baz"]}) == {"foo": ["bar", "baz"]}
with pytest.raises(ValidationError) as excinfo:
field.deserialize({"foo": [1, 2], "bar": "baz", "ham": ["spam"]})
assert excinfo.value.args[0] == {
"foo": {"value": {0: ["Not a valid string."], 1: ["Not a valid string."]}},
"bar": {"value": ["Not a valid list."]},
}
assert excinfo.value.valid_data == {"foo": [], "ham": ["spam"]}
def test_structured_dict_key_deserialization(self):
field = fields.Dict(keys=fields.Str)
assert field.deserialize({"foo": "bar"}) == {"foo": "bar"}
with pytest.raises(ValidationError) as excinfo:
field.deserialize({1: "bar", "foo": "baz"})
assert excinfo.value.args[0] == {1: {"key": ["Not a valid string."]}}
assert excinfo.value.valid_data == {"foo": "baz"}
def test_structured_dict_key_value_deserialization(self):
field = fields.Dict(
keys=fields.Str(
validate=[validate.Email(), validate.Regexp(r".*@test\.com$")]
),
values=fields.Decimal,
)
assert field.deserialize({"foo@test.com": 1}) == {
"foo@test.com": decimal.Decimal(1)
}
with pytest.raises(ValidationError) as excinfo:
field.deserialize({1: "bar"})
assert excinfo.value.args[0] == {
1: {"key": ["Not a valid string."], "value": ["Not a valid number."]}
}
with pytest.raises(ValidationError) as excinfo:
field.deserialize({"foo@test.com": "bar"})
assert excinfo.value.args[0] == {
"foo@test.com": {"value": ["Not a valid number."]}
}
assert excinfo.value.valid_data == {}
with pytest.raises(ValidationError) as excinfo:
field.deserialize({1: 1})
assert excinfo.value.args[0] == {1: {"key": ["Not a valid string."]}}
assert excinfo.value.valid_data == {}
with pytest.raises(ValidationError) as excinfo:
field.deserialize({"foo": "bar"})
assert excinfo.value.args[0] == {
"foo": {
"key": [
"Not a valid email address.",
"String does not match expected pattern.",
],
"value": ["Not a valid number."],
}
}
assert excinfo.value.valid_data == {}
def test_url_field_deserialization(self):
field = fields.Url()
assert field.deserialize("https://duckduckgo.com") == "https://duckduckgo.com"
with pytest.raises(ValidationError) as excinfo:
field.deserialize("badurl")
assert excinfo.value.args[0][0] == "Not a valid URL."
# Relative URLS not allowed by default
with pytest.raises(ValidationError) as excinfo:
field.deserialize("/foo/bar")
assert excinfo.value.args[0][0] == "Not a valid URL."
# regression test for https://github.com/marshmallow-code/marshmallow/issues/1400
def test_url_field_non_list_validators(self):
field = fields.Url(validate=(validate.Length(min=16),))
with pytest.raises(ValidationError, match="Shorter than minimum length"):
field.deserialize("https://abc.def")
def test_relative_url_field_deserialization(self):
field = fields.Url(relative=True)
assert field.deserialize("/foo/bar") == "/foo/bar"
def test_url_field_schemes_argument(self):
field = fields.URL()
url = "ws://test.test"
with pytest.raises(ValidationError):
field.deserialize(url)
field2 = fields.URL(schemes={"http", "https", "ws"})
assert field2.deserialize(url) == url
def test_email_field_deserialization(self):
field = fields.Email()
assert field.deserialize("foo@bar.com") == "foo@bar.com"
with pytest.raises(ValidationError) as excinfo:
field.deserialize("invalidemail")
assert excinfo.value.args[0][0] == "Not a valid email address."
# regression test for https://github.com/marshmallow-code/marshmallow/issues/1400
def test_email_field_non_list_validators(self):
field = fields.Email(validate=(validate.Length(min=9),))
with pytest.raises(ValidationError, match="Shorter than minimum length"):
field.deserialize("a@bc.com")
def test_function_field_deserialization_is_noop_by_default(self):
field = fields.Function(lambda x: None)
# Default is noop
assert field.deserialize("foo") == "foo"
assert field.deserialize(42) == 42
def test_function_field_deserialization_with_callable(self):
field = fields.Function(lambda x: None, deserialize=lambda val: val.upper())
assert field.deserialize("foo") == "FOO"
def test_function_field_deserialization_with_context(self):
class Parent(Schema):
pass
field = fields.Function(
lambda x: None,
deserialize=lambda val, context: val.upper() + context["key"],
)
field.parent = Parent(context={"key": "BAR"})
assert field.deserialize("foo") == "FOOBAR"
def test_function_field_passed_deserialize_only_is_load_only(self):
field = fields.Function(deserialize=lambda val: val.upper())
assert field.load_only is True
def test_function_field_passed_deserialize_and_serialize_is_not_load_only(self):
field = fields.Function(
serialize=lambda val: val.lower(), deserialize=lambda val: val.upper()
)
assert field.load_only is False
def test_uuid_field_deserialization(self):
field = fields.UUID()
uuid_str = str(uuid.uuid4())
result = field.deserialize(uuid_str)
assert isinstance(result, uuid.UUID)
assert str(result) == uuid_str
uuid4 = uuid.uuid4()
result = field.deserialize(uuid4)
assert isinstance(result, uuid.UUID)
assert result == uuid4
uuid_bytes = b"]\xc7wW\x132O\xf9\xa5\xbe\x13\x1f\x02\x18\xda\xbf"
result = field.deserialize(uuid_bytes)
assert isinstance(result, uuid.UUID)
assert result.bytes == uuid_bytes
@pytest.mark.parametrize("in_value", ["malformed", 123, [], b"tooshort"])
def test_invalid_uuid_deserialization(self, in_value):
field = fields.UUID()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_value)
assert excinfo.value.args[0] == "Not a valid UUID."
def test_ip_field_deserialization(self):
field = fields.IP()
ipv4_str = "140.82.118.3"
result = field.deserialize(ipv4_str)
assert isinstance(result, ipaddress.IPv4Address)
assert str(result) == ipv4_str
ipv6_str = "2a00:1450:4001:824::200e"
result = field.deserialize(ipv6_str)
assert isinstance(result, ipaddress.IPv6Address)
assert str(result) == ipv6_str
@pytest.mark.parametrize(
"in_value", ["malformed", 123, b"\x01\x02\03", "192.168", "ff::aa:1::2"]
)
def test_invalid_ip_deserialization(self, in_value):
field = fields.IP()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_value)
assert excinfo.value.args[0] == "Not a valid IP address."
def test_ipv4_field_deserialization(self):
field = fields.IPv4()
ipv4_str = "140.82.118.3"
result = field.deserialize(ipv4_str)
assert isinstance(result, ipaddress.IPv4Address)
assert str(result) == ipv4_str
@pytest.mark.parametrize(
"in_value",
["malformed", 123, b"\x01\x02\03", "192.168", "2a00:1450:4001:81d::200e"],
)
def test_invalid_ipv4_deserialization(self, in_value):
field = fields.IPv4()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_value)
assert excinfo.value.args[0] == "Not a valid IPv4 address."
def test_ipv6_field_deserialization(self):
field = fields.IPv6()
ipv6_str = "2a00:1450:4001:824::200e"
result = field.deserialize(ipv6_str)
assert isinstance(result, ipaddress.IPv6Address)
assert str(result) == ipv6_str
@pytest.mark.parametrize(
"in_value", ["malformed", 123, b"\x01\x02\03", "ff::aa:1::2", "192.168.0.1"]
)
def test_invalid_ipv6_deserialization(self, in_value):
field = fields.IPv6()
with pytest.raises(ValidationError) as excinfo:
field.deserialize(in_value)
assert excinfo.value.args[0] == "Not a valid IPv6 address."
def test_deserialization_function_must_be_callable(self):
with pytest.raises(ValueError):
fields.Function(lambda x: None, deserialize="notvalid")
def test_method_field_deserialization_is_noop_by_default(self):
class MiniUserSchema(Schema):
uppername = fields.Method("uppercase_name")
def uppercase_name(self, obj):
return obj.upper()
s = MiniUserSchema()
assert s.fields["uppername"].deserialize("steve") == "steve"
def test_deserialization_method(self):
class MiniUserSchema(Schema):
uppername = fields.Method("uppercase_name", deserialize="lowercase_name")
def uppercase_name(self, obj):
return obj.name.upper()
def lowercase_name(self, value):
return value.lower()
s = MiniUserSchema()
assert s.fields["uppername"].deserialize("STEVE") == "steve"
def test_deserialization_method_must_be_a_method(self):
class BadSchema(Schema):
uppername = fields.Method("uppercase_name", deserialize="lowercase_name")
s = BadSchema()
with pytest.raises(ValueError):
s.fields["uppername"].deserialize("STEVE")
def test_method_field_deserialize_only(self):
class MethodDeserializeOnly(Schema):
def lowercase_name(self, value):
return value.lower()
m = fields.Method(deserialize="lowercase_name")
m.parent = MethodDeserializeOnly()
assert m.deserialize("ALEC") == "alec"
def test_datetime_list_field_deserialization(self):
dtimes = dt.datetime.now(), dt.datetime.now(), dt.datetime.utcnow()
dstrings = [each.isoformat() for each in dtimes]
field = fields.List(fields.DateTime())
result = field.deserialize(dstrings)
assert all(isinstance(each, dt.datetime) for each in result)
for actual, expected in zip(result, dtimes):
assert_date_equal(actual, expected)
def test_list_field_deserialize_invalid_item(self):
field = fields.List(fields.DateTime)
with pytest.raises(ValidationError) as excinfo:
field.deserialize(["badvalue"])
assert excinfo.value.args[0] == {0: ["Not a valid datetime."]}
field = fields.List(fields.Str())
with pytest.raises(ValidationError) as excinfo:
field.deserialize(["good", 42])
assert excinfo.value.args[0] == {1: ["Not a valid string."]}
def test_list_field_deserialize_multiple_invalid_items(self):
field = fields.List(
fields.Int(
validate=validate.Range(10, 20, error="Value {input} not in range")
)
)
with pytest.raises(ValidationError) as excinfo:
field.deserialize([10, 5, 25])
assert len(excinfo.value.args[0]) == 2
assert excinfo.value.args[0][1] == ["Value 5 not in range"]
assert excinfo.value.args[0][2] == ["Value 25 not in range"]
@pytest.mark.parametrize("value", ["notalist", 42, {}])
def test_list_field_deserialize_value_that_is_not_a_list(self, value):
field = fields.List(fields.Str())
with pytest.raises(ValidationError) as excinfo:
field.deserialize(value)
assert excinfo.value.args[0] == "Not a valid list."
def test_datetime_int_tuple_field_deserialization(self):
dtime = dt.datetime.now()
data = dtime.isoformat(), 42
field = fields.Tuple([fields.DateTime(), fields.Integer()])
result = field.deserialize(data)
assert isinstance(result, tuple)
assert len(result) == 2
for val, type_, true_val in zip(result, (dt.datetime, int), (dtime, 42)):
assert isinstance(val, type_)
assert val == true_val
def test_tuple_field_deserialize_invalid_item(self):
field = fields.Tuple([fields.DateTime])
with pytest.raises(ValidationError) as excinfo:
field.deserialize(["badvalue"])
assert excinfo.value.args[0] == {0: ["Not a valid datetime."]}
field = fields.Tuple([fields.Str(), fields.Integer()])
with pytest.raises(ValidationError) as excinfo:
field.deserialize(["good", "bad"])
assert excinfo.value.args[0] == {1: ["Not a valid integer."]}
def test_tuple_field_deserialize_multiple_invalid_items(self):
validator = validate.Range(10, 20, error="Value {input} not in range")
field = fields.Tuple(
[
fields.Int(validate=validator),
fields.Int(validate=validator),
fields.Int(validate=validator),
]
)
with pytest.raises(ValidationError) as excinfo:
field.deserialize([10, 5, 25])
assert len(excinfo.value.args[0]) == 2
assert excinfo.value.args[0][1] == ["Value 5 not in range"]
assert excinfo.value.args[0][2] == ["Value 25 not in range"]
@pytest.mark.parametrize("value", ["notalist", 42, {}])
def test_tuple_field_deserialize_value_that_is_not_a_collection(self, value):
field = fields.Tuple([fields.Str()])
with pytest.raises(ValidationError) as excinfo:
field.deserialize(value)
assert excinfo.value.args[0] == "Not a valid tuple."
def test_tuple_field_deserialize_invalid_length(self):
field = fields.Tuple([fields.Str(), fields.Str()])
with pytest.raises(ValidationError) as excinfo:
field.deserialize([42])
assert excinfo.value.args[0] == "Length must be 2."
def test_constant_field_deserialization(self):
field = fields.Constant("something")
assert field.deserialize("whatever") == "something"
def test_constant_is_always_included_in_deserialized_data(self):
class MySchema(Schema):
foo = fields.Constant(42)
sch = MySchema()
assert sch.load({})["foo"] == 42
assert sch.load({"foo": 24})["foo"] == 42
def test_field_deserialization_with_user_validator_function(self):
field = fields.String(validate=lambda s: s.lower() == "valid")
assert field.deserialize("Valid") == "Valid"
with pytest.raises(ValidationError) as excinfo:
field.deserialize("invalid")
assert excinfo.value.args[0][0] == "Invalid value."
assert type(excinfo.value) == ValidationError
def test_field_deserialization_with_user_validator_class_that_returns_bool(self):
class MyValidator:
def __call__(self, val):
if val == "valid":
return True
return False
field = fields.Field(validate=MyValidator())
assert field.deserialize("valid") == "valid"
with pytest.raises(ValidationError, match="Invalid value."):
field.deserialize("invalid")
def test_field_deserialization_with_user_validator_that_raises_error_with_list(
self,
):
def validator(val):
raise ValidationError(["err1", "err2"])
class MySchema(Schema):
foo = fields.Field(validate=validator)
errors = MySchema().validate({"foo": 42})
assert errors["foo"] == ["err1", "err2"]
def test_validator_must_return_false_to_raise_error(self):
# validator returns None, so anything validates
field = fields.String(validate=lambda s: None)
assert field.deserialize("Valid") == "Valid"
# validator returns False, so nothing validates
field2 = fields.String(validate=lambda s: False)
with pytest.raises(ValidationError):
field2.deserialize("invalid")
def test_field_deserialization_with_validator_with_nonascii_input(self):
field = fields.String(validate=lambda s: False)
with pytest.raises(ValidationError) as excinfo:
field.deserialize("привет")
assert type(excinfo.value) == ValidationError
def test_field_deserialization_with_user_validators(self):
validators_gen = (
func
for func in (
lambda s: s.lower() == "valid",
lambda s: s.lower()[::-1] == "dilav",
)
)
m_colletion_type = [
fields.String(
validate=[
lambda s: s.lower() == "valid",
lambda s: s.lower()[::-1] == "dilav",
]
),
fields.String(
validate=(
lambda s: s.lower() == "valid",
lambda s: s.lower()[::-1] == "dilav",
)
),
fields.String(validate=validators_gen),
]
for field in m_colletion_type:
assert field.deserialize("Valid") == "Valid"
with pytest.raises(ValidationError, match="Invalid value."):
field.deserialize("invalid")
def test_field_deserialization_with_custom_error_message(self):
field = fields.String(
validate=lambda s: s.lower() == "valid",
error_messages={"validator_failed": "Bad value."},
)
with pytest.raises(ValidationError, match="Bad value."):
field.deserialize("invalid")
# No custom deserialization behavior, so a dict is returned
class SimpleUserSchema(Schema):
name = fields.String()
age = fields.Float()
class Validator(Schema):
email = fields.Email()
colors = fields.Str(validate=validate.OneOf(["red", "blue"]))
age = fields.Integer(validate=lambda n: n > 0)
class Validators(Schema):
email = fields.Email()
colors = fields.Str(validate=validate.OneOf(["red", "blue"]))
age = fields.Integer(validate=[lambda n: n > 0, lambda n: n < 100])
class TestSchemaDeserialization:
def test_deserialize_to_dict(self):
user_dict = {"name": "Monty", "age": "42.3"}
result = SimpleUserSchema().load(user_dict)
assert result["name"] == "Monty"
assert math.isclose(result["age"], 42.3)
def test_deserialize_with_missing_values(self):
user_dict = {"name": "Monty"}
result = SimpleUserSchema().load(user_dict)
# 'age' is not included in result
assert result == {"name": "Monty"}
def test_deserialize_many(self):
users_data = [{"name": "Mick", "age": "914"}, {"name": "Keith", "age": "8442"}]
result = SimpleUserSchema(many=True).load(users_data)
assert isinstance(result, list)
user = result[0]
assert user["age"] == int(users_data[0]["age"])
def test_exclude(self):
schema = SimpleUserSchema(exclude=("age",), unknown=EXCLUDE)
result = schema.load({"name": "Monty", "age": 42})
assert "name" in result
assert "age" not in result
def test_nested_single_deserialization_to_dict(self):
class SimpleBlogSerializer(Schema):
title = fields.String()
author = fields.Nested(SimpleUserSchema, unknown=EXCLUDE)
blog_dict = {
"title": "Gimme Shelter",
"author": {"name": "Mick", "age": "914", "email": "mick@stones.com"},
}
result = SimpleBlogSerializer().load(blog_dict)
author = result["author"]
assert author["name"] == "Mick"
assert author["age"] == 914
assert "email" not in author
def test_nested_list_deserialization_to_dict(self):
class SimpleBlogSerializer(Schema):
title = fields.String()
authors = fields.Nested(SimpleUserSchema, many=True)
blog_dict = {
"title": "Gimme Shelter",
"authors": [
{"name": "Mick", "age": "914"},
{"name": "Keith", "age": "8442"},
],
}
result = SimpleBlogSerializer().load(blog_dict)
assert isinstance(result["authors"], list)
author = result["authors"][0]
assert author["name"] == "Mick"
assert author["age"] == 914
def test_nested_single_none_not_allowed(self):
class PetSchema(Schema):
name = fields.Str()
class OwnerSchema(Schema):
pet = fields.Nested(PetSchema(), allow_none=False)
sch = OwnerSchema()
errors = sch.validate({"pet": None})
assert "pet" in errors
assert errors["pet"] == ["Field may not be null."]
def test_nested_many_non_not_allowed(self):
class PetSchema(Schema):
name = fields.Str()
class StoreSchema(Schema):
pets = fields.Nested(PetSchema(), allow_none=False, many=True)
sch = StoreSchema()
errors = sch.validate({"pets": None})
assert "pets" in errors
assert errors["pets"] == ["Field may not be null."]
def test_nested_single_required_missing(self):
class PetSchema(Schema):
name = fields.Str()
class OwnerSchema(Schema):
pet = fields.Nested(PetSchema(), required=True)
sch = OwnerSchema()
errors = sch.validate({})
assert "pet" in errors
assert errors["pet"] == ["Missing data for required field."]
def test_nested_many_required_missing(self):
class PetSchema(Schema):
name = fields.Str()
class StoreSchema(Schema):
pets = fields.Nested(PetSchema(), required=True, many=True)
sch = StoreSchema()
errors = sch.validate({})
assert "pets" in errors
assert errors["pets"] == ["Missing data for required field."]
def test_nested_only_basestring(self):
class ANestedSchema(Schema):
pk = fields.Str()
class MainSchema(Schema):
pk = fields.Str()
child = fields.Pluck(ANestedSchema, "pk")
sch = MainSchema()
result = sch.load({"pk": "123", "child": "456"})
assert result["child"]["pk"] == "456"
def test_nested_only_basestring_with_list_data(self):
class ANestedSchema(Schema):
pk = fields.Str()
class MainSchema(Schema):
pk = fields.Str()
children = fields.Pluck(ANestedSchema, "pk", many=True)
sch = MainSchema()
result = sch.load({"pk": "123", "children": ["456", "789"]})
assert result["children"][0]["pk"] == "456"
assert result["children"][1]["pk"] == "789"
def test_nested_none_deserialization(self):
class SimpleBlogSerializer(Schema):
title = fields.String()
author = fields.Nested(SimpleUserSchema, allow_none=True)
blog_dict = {"title": "Gimme Shelter", "author": None}
result = SimpleBlogSerializer().load(blog_dict)
assert result["author"] is None
assert result["title"] == blog_dict["title"]
def test_deserialize_with_attribute_param(self):
class AliasingUserSerializer(Schema):
username = fields.Email(attribute="email")
years = fields.Integer(attribute="age")
data = {"username": "foo@bar.com", "years": "42"}
result = AliasingUserSerializer().load(data)
assert result["email"] == "foo@bar.com"
assert result["age"] == 42
# regression test for https://github.com/marshmallow-code/marshmallow/issues/450
def test_deserialize_with_attribute_param_symmetry(self):
class MySchema(Schema):
foo = fields.Field(attribute="bar.baz")
schema = MySchema()
dump_data = schema.dump({"bar": {"baz": 42}})
assert dump_data == {"foo": 42}
load_data = schema.load({"foo": 42})
assert load_data == {"bar": {"baz": 42}}
def test_deserialize_with_attribute_param_error_returns_field_name_not_attribute_name(
self,
):
class AliasingUserSerializer(Schema):
username = fields.Email(attribute="email")
years = fields.Integer(attribute="age")
data = {"username": "foobar.com", "years": "42"}
with pytest.raises(ValidationError) as excinfo:
AliasingUserSerializer().load(data)
errors = excinfo.value.messages
assert errors["username"] == ["Not a valid email address."]
def test_deserialize_with_attribute_param_error_returns_data_key_not_attribute_name(
self,
):
class AliasingUserSerializer(Schema):
name = fields.String(data_key="Name")
username = fields.Email(attribute="email", data_key="UserName")
years = fields.Integer(attribute="age", data_key="Years")
data = {"Name": "Mick", "UserName": "foobar.com", "Years": "abc"}
with pytest.raises(ValidationError) as excinfo:
AliasingUserSerializer().load(data)
errors = excinfo.value.messages
assert errors["UserName"] == ["Not a valid email address."]
assert errors["Years"] == ["Not a valid integer."]
def test_deserialize_with_data_key_param(self):
class AliasingUserSerializer(Schema):
name = fields.String(data_key="Name")
username = fields.Email(attribute="email", data_key="UserName")
years = fields.Integer(data_key="Years")
data = {"Name": "Mick", "UserName": "foo@bar.com", "years": "42"}
result = AliasingUserSerializer(unknown=EXCLUDE).load(data)
assert result["name"] == "Mick"
assert result["email"] == "foo@bar.com"
assert "years" not in result
def test_deserialize_with_data_key_as_empty_string(self):
class MySchema(Schema):
name = fields.Field(data_key="")
schema = MySchema()
assert schema.load({"": "Grace"}) == {"name": "Grace"}
def test_deserialize_with_dump_only_param(self):
class AliasingUserSerializer(Schema):
name = fields.String()
years = fields.Integer(dump_only=True)
size = fields.Integer(dump_only=True, load_only=True)
nicknames = fields.List(fields.Str(), dump_only=True)
data = {
"name": "Mick",
"years": "42",
"size": "12",
"nicknames": ["Your Majesty", "Brenda"],
}
result = AliasingUserSerializer(unknown=EXCLUDE).load(data)
assert result["name"] == "Mick"
assert "years" not in result
assert "size" not in result
assert "nicknames" not in result
def test_deserialize_with_missing_param_value(self):
bdate = dt.datetime(2017, 9, 29)
class AliasingUserSerializer(Schema):
name = fields.String()
birthdate = fields.DateTime(missing=bdate)
data = {"name": "Mick"}
result = AliasingUserSerializer().load(data)
assert result["name"] == "Mick"
assert result["birthdate"] == bdate
def test_deserialize_with_missing_param_callable(self):
bdate = dt.datetime(2017, 9, 29)
class AliasingUserSerializer(Schema):
name = fields.String()
birthdate = fields.DateTime(missing=lambda: bdate)
data = {"name": "Mick"}
result = AliasingUserSerializer().load(data)
assert result["name"] == "Mick"
assert result["birthdate"] == bdate
def test_deserialize_with_missing_param_none(self):
class AliasingUserSerializer(Schema):
name = fields.String()
years = fields.Integer(missing=None, allow_none=True)
data = {"name": "Mick"}
result = AliasingUserSerializer().load(data)
assert result["name"] == "Mick"
assert result["years"] is None
def test_deserialization_raises_with_errors(self):
bad_data = {"email": "invalid-email", "colors": "burger", "age": -1}
v = Validator()
with pytest.raises(ValidationError) as excinfo:
v.load(bad_data)
errors = excinfo.value.messages
assert "email" in errors
assert "colors" in errors
assert "age" in errors
def test_deserialization_raises_with_errors_with_multiple_validators(self):
bad_data = {"email": "invalid-email", "colors": "burger", "age": -1}
v = Validators()
with pytest.raises(ValidationError) as excinfo:
v.load(bad_data)
errors = excinfo.value.messages
assert "email" in errors
assert "colors" in errors
assert "age" in errors
def test_deserialization_many_raises_errors(self):
bad_data = [
{"email": "foo@bar.com", "colors": "red", "age": 18},
{"email": "bad", "colors": "pizza", "age": -1},
]
v = Validator(many=True)
with pytest.raises(ValidationError):
v.load(bad_data)
def test_validation_errors_are_stored(self):
def validate_field(val):
raise ValidationError("Something went wrong")
class MySchema(Schema):
foo = fields.Field(validate=validate_field)
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"foo": 42})
errors = excinfo.value.messages
assert "Something went wrong" in errors["foo"]
def test_multiple_errors_can_be_stored_for_a_field(self):
def validate_with_bool(n):
return False
def validate_with_error(n):
raise ValidationError("foo is not valid")
class MySchema(Schema):
foo = fields.Field(
required=True, validate=[validate_with_bool, validate_with_error]
)
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"foo": "bar"})
errors = excinfo.value.messages
assert type(errors["foo"]) == list
assert len(errors["foo"]) == 2
def test_multiple_errors_can_be_stored_for_an_email_field(self):
def validate_with_bool(val):
return False
class MySchema(Schema):
email = fields.Email(validate=[validate_with_bool])
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"email": "foo"})
errors = excinfo.value.messages
assert len(errors["email"]) == 2
assert "Not a valid email address." in errors["email"][0]
def test_multiple_errors_can_be_stored_for_a_url_field(self):
def validate_with_bool(val):
return False
class MySchema(Schema):
url = fields.Url(validate=[validate_with_bool])
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"url": "foo"})
errors = excinfo.value.messages
assert len(errors["url"]) == 2
assert "Not a valid URL." in errors["url"][0]
def test_required_value_only_passed_to_validators_if_provided(self):
class MySchema(Schema):
foo = fields.Field(required=True, validate=lambda f: False)
with pytest.raises(ValidationError) as excinfo:
MySchema().load({})
errors = excinfo.value.messages
# required value missing
assert len(errors["foo"]) == 1
assert "Missing data for required field." in errors["foo"]
@pytest.mark.parametrize("partial_schema", [True, False])
def test_partial_deserialization(self, partial_schema):
class MySchema(Schema):
foo = fields.Field(required=True)
bar = fields.Field(required=True)
schema_args = {}
load_args = {}
if partial_schema:
schema_args["partial"] = True
else:
load_args["partial"] = True
data = MySchema(**schema_args).load({"foo": 3}, **load_args)
assert data["foo"] == 3
assert "bar" not in data
def test_partial_fields_deserialization(self):
class MySchema(Schema):
foo = fields.Field(required=True)
bar = fields.Field(required=True)
baz = fields.Field(required=True)
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"foo": 3}, partial=tuple())
data, errors = excinfo.value.valid_data, excinfo.value.messages
assert data["foo"] == 3
assert "bar" in errors
assert "baz" in errors
data = MySchema().load({"foo": 3}, partial=("bar", "baz"))
assert data["foo"] == 3
assert "bar" not in data
assert "baz" not in data
data = MySchema(partial=True).load({"foo": 3}, partial=("bar", "baz"))
assert data["foo"] == 3
assert "bar" not in data
assert "baz" not in data
def test_partial_fields_validation(self):
class MySchema(Schema):
foo = fields.Field(required=True)
bar = fields.Field(required=True)
baz = fields.Field(required=True)
errors = MySchema().validate({"foo": 3}, partial=tuple())
assert "bar" in errors
assert "baz" in errors
errors = MySchema().validate({"foo": 3}, partial=("bar", "baz"))
assert errors == {}
errors = MySchema(partial=True).validate({"foo": 3}, partial=("bar", "baz"))
assert errors == {}
def test_unknown_fields_deserialization(self):
class MySchema(Schema):
foo = fields.Integer()
data = MySchema(unknown=EXCLUDE).load({"foo": 3, "bar": 5})
assert data["foo"] == 3
assert "bar" not in data
data = MySchema(unknown=INCLUDE).load({"foo": 3, "bar": 5}, unknown=EXCLUDE)
assert data["foo"] == 3
assert "bar" not in data
data = MySchema(unknown=EXCLUDE).load({"foo": 3, "bar": 5}, unknown=INCLUDE)
assert data["foo"] == 3
assert data["bar"]
data = MySchema(unknown=INCLUDE).load({"foo": 3, "bar": 5})
assert data["foo"] == 3
assert data["bar"]
with pytest.raises(ValidationError, match="foo"):
MySchema(unknown=INCLUDE).load({"foo": "asd", "bar": 5})
data = MySchema(unknown=INCLUDE, many=True).load(
[{"foo": 1}, {"foo": 3, "bar": 5}]
)
assert "foo" in data[1]
assert "bar" in data[1]
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"foo": 3, "bar": 5})
err = excinfo.value
assert "bar" in err.messages
assert err.messages["bar"] == ["Unknown field."]
with pytest.raises(ValidationError) as excinfo:
MySchema(many=True).load([{"foo": "abc"}, {"foo": 3, "bar": 5}])
err = excinfo.value
assert 0 in err.messages
assert "foo" in err.messages[0]
assert err.messages[0]["foo"] == ["Not a valid integer."]
assert 1 in err.messages
assert "bar" in err.messages[1]
assert err.messages[1]["bar"] == ["Unknown field."]
def test_unknown_fields_deserialization_precedence(self):
class MySchema(Schema):
class Meta:
unknown = INCLUDE
foo = fields.Integer()
data = MySchema().load({"foo": 3, "bar": 5})
assert data["foo"] == 3
assert data["bar"] == 5
data = MySchema(unknown=EXCLUDE).load({"foo": 3, "bar": 5})
assert data["foo"] == 3
assert "bar" not in data
data = MySchema().load({"foo": 3, "bar": 5}, unknown=EXCLUDE)
assert data["foo"] == 3
assert "bar" not in data
with pytest.raises(ValidationError):
MySchema(unknown=EXCLUDE).load({"foo": 3, "bar": 5}, unknown=RAISE)
def test_unknown_fields_deserialization_with_data_key(self):
class MySchema(Schema):
foo = fields.Integer(data_key="Foo")
data = MySchema().load({"Foo": 1})
assert data["foo"] == 1
assert "Foo" not in data
data = MySchema(unknown=RAISE).load({"Foo": 1})
assert data["foo"] == 1
assert "Foo" not in data
with pytest.raises(ValidationError):
MySchema(unknown=RAISE).load({"foo": 1})
data = MySchema(unknown=INCLUDE).load({"Foo": 1})
assert data["foo"] == 1
assert "Foo" not in data
def test_unknown_fields_deserialization_with_index_errors_false(self):
class MySchema(Schema):
foo = fields.Integer()
class Meta:
unknown = RAISE
index_errors = False
with pytest.raises(ValidationError) as excinfo:
MySchema(many=True).load([{"foo": "invalid"}, {"foo": 42, "bar": 24}])
err = excinfo.value
assert 1 not in err.messages
assert "foo" in err.messages
assert "bar" in err.messages
assert err.messages["foo"] == ["Not a valid integer."]
assert err.messages["bar"] == ["Unknown field."]
def test_dump_only_fields_considered_unknown(self):
class MySchema(Schema):
foo = fields.Int(dump_only=True)
with pytest.raises(ValidationError) as excinfo:
MySchema().load({"foo": 42})
err = excinfo.value
assert "foo" in err.messages
assert err.messages["foo"] == ["Unknown field."]
# When unknown = INCLUDE, dump-only fields are included as unknown
# without any validation.
data = MySchema(unknown=INCLUDE).load({"foo": "LOL"})
assert data["foo"] == "LOL"
validators_gen = (func for func in [lambda x: x <= 24, lambda x: 18 <= x])
validators_gen_float = (func for func in [lambda f: f <= 4.1, lambda f: f >= 1.0])
validators_gen_str = (
func for func in [lambda n: len(n) == 3, lambda n: n[1].lower() == "o"]
)
class TestValidation:
def test_integer_with_validator(self):
field = fields.Integer(validate=lambda x: 18 <= x <= 24)
out = field.deserialize("20")
assert out == 20
with pytest.raises(ValidationError):
field.deserialize(25)
@pytest.mark.parametrize(
"field",
[
fields.Integer(validate=[lambda x: x <= 24, lambda x: 18 <= x]),
fields.Integer(validate=(lambda x: x <= 24, lambda x: 18 <= x)),
fields.Integer(validate=validators_gen),
],
)
def test_integer_with_validators(self, field):
out = field.deserialize("20")
assert out == 20
with pytest.raises(ValidationError):
field.deserialize(25)
@pytest.mark.parametrize(
"field",
[
fields.Float(validate=[lambda f: f <= 4.1, lambda f: f >= 1.0]),
fields.Float(validate=(lambda f: f <= 4.1, lambda f: f >= 1.0)),
fields.Float(validate=validators_gen_float),
],
)
def test_float_with_validators(self, field):
assert field.deserialize(3.14)
with pytest.raises(ValidationError):
field.deserialize(4.2)
def test_string_validator(self):
field = fields.String(validate=lambda n: len(n) == 3)
assert field.deserialize("Joe") == "Joe"
with pytest.raises(ValidationError):
field.deserialize("joseph")
def test_function_validator(self):
field = fields.Function(
lambda d: d.name.upper(), validate=lambda n: len(n) == 3
)
assert field.deserialize("joe")
with pytest.raises(ValidationError):
field.deserialize("joseph")
@pytest.mark.parametrize(
"field",
[
fields.Function(
lambda d: d.name.upper(),
validate=[lambda n: len(n) == 3, lambda n: n[1].lower() == "o"],
),
fields.Function(
lambda d: d.name.upper(),
validate=(lambda n: len(n) == 3, lambda n: n[1].lower() == "o"),
),
fields.Function(lambda d: d.name.upper(), validate=validators_gen_str),
],
)
def test_function_validators(self, field):
assert field.deserialize("joe")
with pytest.raises(ValidationError):
field.deserialize("joseph")
def test_method_validator(self):
class MethodSerializer(Schema):
name = fields.Method(
"get_name", deserialize="get_name", validate=lambda n: len(n) == 3
)
def get_name(self, val):
return val.upper()
assert MethodSerializer().load({"name": "joe"})
with pytest.raises(ValidationError, match="Invalid value."):
MethodSerializer().load({"name": "joseph"})
# Regression test for https://github.com/marshmallow-code/marshmallow/issues/269
def test_nested_data_is_stored_when_validation_fails(self):
class SchemaA(Schema):
x = fields.Integer()
y = fields.Integer(validate=lambda n: n > 0)
z = fields.Integer()
class SchemaB(Schema):
w = fields.Integer()
n = fields.Nested(SchemaA)
sch = SchemaB()
with pytest.raises(ValidationError) as excinfo:
sch.load({"w": 90, "n": {"x": 90, "y": 89, "z": None}})
data, errors = excinfo.value.valid_data, excinfo.value.messages
assert "z" in errors["n"]
assert data == {"w": 90, "n": {"x": 90, "y": 89}}
with pytest.raises(ValidationError) as excinfo:
sch.load({"w": 90, "n": {"x": 90, "y": -1, "z": 180}})
data, errors = excinfo.value.valid_data, excinfo.value.messages
assert "y" in errors["n"]
assert data == {"w": 90, "n": {"x": 90, "z": 180}}
def test_false_value_validation(self):
class Sch(Schema):
lamb = fields.Raw(validate=lambda x: x is False)
equal = fields.Raw(validate=Equal(False))
errors = Sch().validate({"lamb": False, "equal": False})
assert not errors
errors = Sch().validate({"lamb": True, "equal": True})
assert "lamb" in errors
assert errors["lamb"] == ["Invalid value."]
assert "equal" in errors
assert errors["equal"] == ["Must be equal to False."]
def test_nested_partial_load(self):
class SchemaA(Schema):
x = fields.Integer(required=True)
y = fields.Integer()
class SchemaB(Schema):
z = fields.Nested(SchemaA)
b_dict = {"z": {"y": 42}}
# Partial loading shouldn't generate any errors.
result = SchemaB().load(b_dict, partial=True)
assert result["z"]["y"] == 42
# Non partial loading should complain about missing values.
with pytest.raises(ValidationError) as excinfo:
SchemaB().load(b_dict)
data, errors = excinfo.value.valid_data, excinfo.value.messages
assert data["z"]["y"] == 42
assert "z" in errors
assert "x" in errors["z"]
def test_deeply_nested_partial_load(self):
class SchemaC(Schema):
x = fields.Integer(required=True)
y = fields.Integer()
class SchemaB(Schema):
c = fields.Nested(SchemaC)
class SchemaA(Schema):
b = fields.Nested(SchemaB)
a_dict = {"b": {"c": {"y": 42}}}
# Partial loading shouldn't generate any errors.
result = SchemaA().load(a_dict, partial=True)
assert result["b"]["c"]["y"] == 42
# Non partial loading should complain about missing values.
with pytest.raises(ValidationError) as excinfo:
SchemaA().load(a_dict)
data, errors = excinfo.value.valid_data, excinfo.value.messages
assert data["b"]["c"]["y"] == 42
assert "b" in errors
assert "c" in errors["b"]
assert "x" in errors["b"]["c"]
def test_nested_partial_tuple(self):
class SchemaA(Schema):
x = fields.Integer(required=True)
y = fields.Integer(required=True)
class SchemaB(Schema):
z = fields.Nested(SchemaA)
b_dict = {"z": {"y": 42}}
# If we ignore the missing z.x, z.y should still load.
result = SchemaB().load(b_dict, partial=("z.x",))
assert result["z"]["y"] == 42
# If we ignore a missing z.y we should get a validation error.
with pytest.raises(ValidationError):
SchemaB().load(b_dict, partial=("z.y",))
@pytest.mark.parametrize("FieldClass", ALL_FIELDS)
def test_required_field_failure(FieldClass): # noqa
class RequireSchema(Schema):
age = FieldClass(required=True)
user_data = {"name": "Phil"}
with pytest.raises(ValidationError) as excinfo:
RequireSchema().load(user_data)
errors = excinfo.value.messages
assert "Missing data for required field." in errors["age"]
@pytest.mark.parametrize(
"message",
[
"My custom required message",
{"error": "something", "code": 400},
["first error", "second error"],
],
)
def test_required_message_can_be_changed(message):
class RequireSchema(Schema):
age = fields.Integer(required=True, error_messages={"required": message})
user_data = {"name": "Phil"}
with pytest.raises(ValidationError) as excinfo:
RequireSchema().load(user_data)
errors = excinfo.value.messages
expected = [message] if isinstance(message, str) else message
assert expected == errors["age"]
@pytest.mark.parametrize("unknown", (EXCLUDE, INCLUDE, RAISE))
@pytest.mark.parametrize("data", [True, False, 42, None, []])
def test_deserialize_raises_exception_if_input_type_is_incorrect(data, unknown):
class MySchema(Schema):
foo = fields.Field()
bar = fields.Field()
with pytest.raises(ValidationError, match="Invalid input type.") as excinfo:
MySchema(unknown=unknown).load(data)
exc = excinfo.value
assert list(exc.messages.keys()) == ["_schema"]
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