# coding: utf-8
"""
LUSID API
FINBOURNE Technology # noqa: E501
Contact: info@finbourne.com
Generated by OpenAPI Generator (https://openapi-generator.tech)
Do not edit the class manually.
"""
from __future__ import annotations
import pprint
import re # noqa: F401
import json
from typing import List, Dict, Optional, Any, Union, TYPE_CHECKING
from typing_extensions import Annotated
from pydantic.v1 import BaseModel, StrictStr, StrictInt, StrictBool, StrictFloat, StrictBytes, Field, validator, ValidationError, conlist, constr
from datetime import datetime
from lusid.models.model_property import ModelProperty
from lusid.models.simple_rounding_convention import SimpleRoundingConvention
from lusid.models.time_zone_conventions import TimeZoneConventions
from lusid.models.trading_conventions import TradingConventions
[docs]
class ShareClassDefinition(BaseModel):
"""
ShareClassDefinition
"""
code: StrictStr = Field(...,alias="code", description="The unique code for the Share Class. Must be unique within the Fund.")
name: StrictStr = Field(...,alias="name", description="The display name of the Share Class.")
description: Optional[StrictStr] = Field(None,alias="description", description="An optional description for the Share Class.")
share_class_short_code: StrictStr = Field(...,alias="shareClassShortCode", description="A short code that uniquely identifies the share class within the Fund.")
launch_price: Optional[Union[StrictFloat, StrictInt]] = Field(default=None, description="The launch price set when a shareclass is added to the fund. Defaults to 1.", alias="launchPrice")
launch_date: Optional[datetime] = Field(default=None, description="The launch date set when a shareclass is added to the fund. Defaults to Fund Inception Date.", alias="launchDate")
apportionment_factor: Optional[Union[StrictFloat, StrictInt]] = Field(default=None, description="The weighting factor used for apportionment across this share class.", alias="apportionmentFactor")
properties: Optional[Dict[str, ModelProperty]] = Field(default=None, description="An optional set of properties to attach to the auto-created Instrument. Only applied when createInstrument is true.")
fund_share_class_type: StrictStr = Field(...,alias="fundShareClassType", description="The Type of Share Class. Available values: Unitised, Inactive, Series, PrivateEquity, Partnership.")
distribution_type: StrictStr = Field(...,alias="distributionType", description="The type of distribution the ShareClass will calculate. Available values: Income, Accumulation.")
dom_ccy: StrictStr = Field(...,alias="domCcy", description="The domestic currency of the ShareClass instrument.")
trading_conventions: Optional[TradingConventions] = Field(default=None, alias="tradingConventions")
units_precision: Optional[StrictInt] = Field(default=None, description="Decimal places for the share class units.", alias="unitsPrecision")
price_precision: Optional[StrictInt] = Field(default=None, description="Decimal places for the share class price.", alias="pricePrecision")
rounding_conventions: Optional[List[SimpleRoundingConvention]] = Field(default=None, description="Rounding conventions used for the ShareClass quotes.", alias="roundingConventions")
rounding_conventions_units: Optional[List[SimpleRoundingConvention]] = Field(default=None, description="Rounding conventions used for the ShareClass units.", alias="roundingConventionsUnits")
time_zone_conventions: Optional[TimeZoneConventions] = Field(default=None, alias="timeZoneConventions")
distribution_payment_type: Optional[StrictStr] = Field(None,alias="distributionPaymentType", description="The tax treatment applied to distributions. Available values: Invalid, Gross, Net.")
hedging: StrictStr = Field(...,alias="hedging", description="Indicates whether the ShareClass applies currency hedging. Available values: Invalid, None, ApplyHedging.")
__properties = ["code", "name", "description", "shareClassShortCode", "launchPrice", "launchDate", "apportionmentFactor", "properties", "fundShareClassType", "distributionType", "domCcy", "tradingConventions", "unitsPrecision", "pricePrecision", "roundingConventions", "roundingConventionsUnits", "timeZoneConventions", "distributionPaymentType", "hedging"]
[docs]
class Config:
"""Pydantic configuration"""
allow_population_by_field_name = True
validate_assignment = True
def __str__(self):
"""For `print` and `pprint`"""
return pprint.pformat(self.dict(by_alias=False))
def __repr__(self):
"""For `print` and `pprint`"""
return self.to_str()
[docs]
def to_str(self) -> str:
"""Returns the string representation of the model using alias"""
return pprint.pformat(self.dict(by_alias=True))
[docs]
def to_json(self) -> str:
"""Returns the JSON representation of the model using alias"""
return json.dumps(self.to_dict())
[docs]
@classmethod
def from_json(cls, json_str: str) -> ShareClassDefinition:
"""Create an instance of ShareClassDefinition from a JSON string"""
return cls.from_dict(json.loads(json_str))
[docs]
def to_dict(self):
"""Returns the dictionary representation of the model using alias"""
_dict = self.dict(by_alias=True,
exclude={
},
exclude_none=True)
# override the default output from pydantic by calling `to_dict()` of each value in properties (dict)
_field_dict = {}
if self.properties:
for _key in self.properties:
if self.properties[_key]:
_field_dict[_key] = self.properties[_key].to_dict()
_dict['properties'] = _field_dict
# override the default output from pydantic by calling `to_dict()` of trading_conventions
if self.trading_conventions:
_dict['tradingConventions'] = self.trading_conventions.to_dict()
# override the default output from pydantic by calling `to_dict()` of each item in rounding_conventions (list)
_items = []
if self.rounding_conventions:
for _item in self.rounding_conventions:
if _item:
_items.append(_item.to_dict())
_dict['roundingConventions'] = _items
# override the default output from pydantic by calling `to_dict()` of each item in rounding_conventions_units (list)
_items = []
if self.rounding_conventions_units:
for _item in self.rounding_conventions_units:
if _item:
_items.append(_item.to_dict())
_dict['roundingConventionsUnits'] = _items
# override the default output from pydantic by calling `to_dict()` of time_zone_conventions
if self.time_zone_conventions:
_dict['timeZoneConventions'] = self.time_zone_conventions.to_dict()
# set to None if description (nullable) is None
# and __fields_set__ contains the field
if self.description is None and "description" in self.__fields_set__:
_dict['description'] = None
# set to None if launch_price (nullable) is None
# and __fields_set__ contains the field
if self.launch_price is None and "launch_price" in self.__fields_set__:
_dict['launchPrice'] = None
# set to None if launch_date (nullable) is None
# and __fields_set__ contains the field
if self.launch_date is None and "launch_date" in self.__fields_set__:
_dict['launchDate'] = None
# set to None if apportionment_factor (nullable) is None
# and __fields_set__ contains the field
if self.apportionment_factor is None and "apportionment_factor" in self.__fields_set__:
_dict['apportionmentFactor'] = None
# set to None if properties (nullable) is None
# and __fields_set__ contains the field
if self.properties is None and "properties" in self.__fields_set__:
_dict['properties'] = None
# set to None if units_precision (nullable) is None
# and __fields_set__ contains the field
if self.units_precision is None and "units_precision" in self.__fields_set__:
_dict['unitsPrecision'] = None
# set to None if price_precision (nullable) is None
# and __fields_set__ contains the field
if self.price_precision is None and "price_precision" in self.__fields_set__:
_dict['pricePrecision'] = None
# set to None if rounding_conventions (nullable) is None
# and __fields_set__ contains the field
if self.rounding_conventions is None and "rounding_conventions" in self.__fields_set__:
_dict['roundingConventions'] = None
# set to None if rounding_conventions_units (nullable) is None
# and __fields_set__ contains the field
if self.rounding_conventions_units is None and "rounding_conventions_units" in self.__fields_set__:
_dict['roundingConventionsUnits'] = None
# set to None if distribution_payment_type (nullable) is None
# and __fields_set__ contains the field
if self.distribution_payment_type is None and "distribution_payment_type" in self.__fields_set__:
_dict['distributionPaymentType'] = None
return _dict
[docs]
@classmethod
def from_dict(cls, obj: dict) -> ShareClassDefinition:
"""Create an instance of ShareClassDefinition from a dict"""
if obj is None:
return None
if not isinstance(obj, dict):
return ShareClassDefinition.parse_obj(obj)
_obj = ShareClassDefinition.parse_obj({
"code": obj.get("code"),
"name": obj.get("name"),
"description": obj.get("description"),
"share_class_short_code": obj.get("shareClassShortCode"),
"launch_price": obj.get("launchPrice"),
"launch_date": obj.get("launchDate"),
"apportionment_factor": obj.get("apportionmentFactor"),
"properties": dict(
(_k, ModelProperty.from_dict(_v))
for _k, _v in obj.get("properties").items()
)
if obj.get("properties") is not None
else None,
"fund_share_class_type": obj.get("fundShareClassType"),
"distribution_type": obj.get("distributionType"),
"dom_ccy": obj.get("domCcy"),
"trading_conventions": TradingConventions.from_dict(obj.get("tradingConventions")) if obj.get("tradingConventions") is not None else None,
"units_precision": obj.get("unitsPrecision"),
"price_precision": obj.get("pricePrecision"),
"rounding_conventions": [SimpleRoundingConvention.from_dict(_item) for _item in obj.get("roundingConventions")] if obj.get("roundingConventions") is not None else None,
"rounding_conventions_units": [SimpleRoundingConvention.from_dict(_item) for _item in obj.get("roundingConventionsUnits")] if obj.get("roundingConventionsUnits") is not None else None,
"time_zone_conventions": TimeZoneConventions.from_dict(obj.get("timeZoneConventions")) if obj.get("timeZoneConventions") is not None else None,
"distribution_payment_type": obj.get("distributionPaymentType"),
"hedging": obj.get("hedging")
})
return _obj
ShareClassDefinition.update_forward_refs()