# coding: utf-8
from enum import Enum
from six import string_types, iteritems
from bitmovin_api_sdk.common.poscheck import poscheck_model
import pprint
import six
[docs]class AutomaticAdPlacementPosition(object):
@poscheck_model
def __init__(self,
position=None,
max_deviation=None,
duration=None):
# type: (float, float, float) -> None
self._position = None
self._max_deviation = None
self._duration = None
self.discriminator = None
if position is not None:
self.position = position
if max_deviation is not None:
self.max_deviation = max_deviation
if duration is not None:
self.duration = duration
@property
def openapi_types(self):
types = {
'position': 'float',
'max_deviation': 'float',
'duration': 'float'
}
return types
@property
def attribute_map(self):
attributes = {
'position': 'position',
'max_deviation': 'maxDeviation',
'duration': 'duration'
}
return attributes
@property
def position(self):
# type: () -> float
"""Gets the position of this AutomaticAdPlacementPosition.
Position of the ad placement in seconds.
:return: The position of this AutomaticAdPlacementPosition.
:rtype: float
"""
return self._position
@position.setter
def position(self, position):
# type: (float) -> None
"""Sets the position of this AutomaticAdPlacementPosition.
Position of the ad placement in seconds.
:param position: The position of this AutomaticAdPlacementPosition.
:type: float
"""
if position is not None:
if not isinstance(position, (float, int)):
raise TypeError("Invalid type for `position`, type has to be `float`")
self._position = position
@property
def max_deviation(self):
# type: () -> float
"""Gets the max_deviation of this AutomaticAdPlacementPosition.
Maximum deviation in seconds to the ad placement position.
:return: The max_deviation of this AutomaticAdPlacementPosition.
:rtype: float
"""
return self._max_deviation
@max_deviation.setter
def max_deviation(self, max_deviation):
# type: (float) -> None
"""Sets the max_deviation of this AutomaticAdPlacementPosition.
Maximum deviation in seconds to the ad placement position.
:param max_deviation: The max_deviation of this AutomaticAdPlacementPosition.
:type: float
"""
if max_deviation is not None:
if not isinstance(max_deviation, (float, int)):
raise TypeError("Invalid type for `max_deviation`, type has to be `float`")
self._max_deviation = max_deviation
@property
def duration(self):
# type: () -> float
"""Gets the duration of this AutomaticAdPlacementPosition.
The desired duration in seconds of the ad to be inserted.
:return: The duration of this AutomaticAdPlacementPosition.
:rtype: float
"""
return self._duration
@duration.setter
def duration(self, duration):
# type: (float) -> None
"""Sets the duration of this AutomaticAdPlacementPosition.
The desired duration in seconds of the ad to be inserted.
:param duration: The duration of this AutomaticAdPlacementPosition.
:type: float
"""
if duration is not None:
if duration is not None and duration < 0:
raise ValueError("Invalid value for `duration`, must be a value greater than or equal to `0`")
if not isinstance(duration, (float, int)):
raise TypeError("Invalid type for `duration`, type has to be `float`")
self._duration = duration
[docs] def to_dict(self):
"""Returns the model properties as a dict"""
result = {}
for attr, _ in six.iteritems(self.openapi_types):
value = getattr(self, attr)
if value is None:
continue
if isinstance(value, list):
if len(value) == 0:
continue
result[self.attribute_map.get(attr)] = [y.value if isinstance(y, Enum) else y for y in [x.to_dict() if hasattr(x, "to_dict") else x for x in value]]
elif hasattr(value, "to_dict"):
result[self.attribute_map.get(attr)] = value.to_dict()
elif isinstance(value, Enum):
result[self.attribute_map.get(attr)] = value.value
elif isinstance(value, dict):
result[self.attribute_map.get(attr)] = {k: (v.to_dict() if hasattr(v, "to_dict") else v) for (k, v) in value.items()}
else:
result[self.attribute_map.get(attr)] = value
return result
[docs] def to_str(self):
"""Returns the string representation of the model"""
return pprint.pformat(self.to_dict())
def __repr__(self):
"""For `print` and `pprint`"""
return self.to_str()
def __eq__(self, other):
"""Returns true if both objects are equal"""
if not isinstance(other, AutomaticAdPlacementPosition):
return False
return self.__dict__ == other.__dict__
def __ne__(self, other):
"""Returns true if both objects are not equal"""
return not self == other