# coding: utf-8 """ VCell API VCell API The version of the OpenAPI document: 1.0.1 Contact: vcell_support@uchc.com Generated by OpenAPI Generator (https://openapi-generator.tech) Do not edit the class manually. """ # noqa: E501 from __future__ import annotations import pprint import re # noqa: F401 import json from typing import Any, ClassVar, Dict, List, Optional from pydantic import StrictBool, StrictInt, StrictStr from pydantic import Field from vcell_client.models.coordinate import Coordinate from vcell_client.models.curve import Curve try: from typing import Self except ImportError: from typing_extensions import Self class AnalyticCurve(Curve): """ AnalyticCurve """ # noqa: E501 type: StrictStr exp_x: Optional[StrictStr] = Field(default=None, alias="expX") exp_y: Optional[StrictStr] = Field(default=None, alias="expY") exp_z: Optional[StrictStr] = Field(default=None, alias="expZ") offset: Optional[Coordinate] = None analytic_offset: Optional[Coordinate] = Field(default=None, alias="analyticOffset") default_num_samples: Optional[StrictInt] = Field(default=None, alias="defaultNumSamples") segment_count: Optional[StrictInt] = Field(default=None, alias="segmentCount") valid: Optional[StrictBool] = None __properties: ClassVar[List[str]] = ["bClosed", "description", "type", "beginningCoordinate", "defaultNumSamples", "endingCoordinate", "numSamplePoints", "segmentCount", "spatialLength", "closed", "valid"] model_config = { "populate_by_name": True, "validate_assignment": True } def to_str(self) -> str: """Returns the string representation of the model using alias""" return pprint.pformat(self.model_dump(by_alias=True)) def to_json(self) -> str: """Returns the JSON representation of the model using alias""" # TODO: pydantic v2: use .model_dump_json(by_alias=True, exclude_unset=True) instead return json.dumps(self.to_dict()) @classmethod def from_json(cls, json_str: str) -> Self: """Create an instance of AnalyticCurve from a JSON string""" return cls.from_dict(json.loads(json_str)) def to_dict(self) -> Dict[str, Any]: """Return the dictionary representation of the model using alias. This has the following differences from calling pydantic's `self.model_dump(by_alias=True)`: * `None` is only added to the output dict for nullable fields that were set at model initialization. Other fields with value `None` are ignored. """ _dict = self.model_dump( by_alias=True, exclude={ }, exclude_none=True, ) # override the default output from pydantic by calling `to_dict()` of beginning_coordinate if self.beginning_coordinate: _dict['beginningCoordinate'] = self.beginning_coordinate.to_dict() # override the default output from pydantic by calling `to_dict()` of ending_coordinate if self.ending_coordinate: _dict['endingCoordinate'] = self.ending_coordinate.to_dict() return _dict @classmethod def from_dict(cls, obj: Dict) -> Self: """Create an instance of AnalyticCurve from a dict""" if obj is None: return None if not isinstance(obj, dict): return cls.model_validate(obj) # raise errors for additional fields in the input for _key in obj.keys(): if _key not in cls.__properties: raise ValueError("Error due to additional fields (not defined in AnalyticCurve) in the input: " + _key) _obj = cls.model_validate({ "bClosed": obj.get("bClosed"), "description": obj.get("description"), "type": obj.get("type") if obj.get("type") is not None else 'AnalyticCurve', "beginningCoordinate": Coordinate.from_dict(obj.get("beginningCoordinate")) if obj.get("beginningCoordinate") is not None else None, "defaultNumSamples": obj.get("defaultNumSamples"), "endingCoordinate": Coordinate.from_dict(obj.get("endingCoordinate")) if obj.get("endingCoordinate") is not None else None, "numSamplePoints": obj.get("numSamplePoints"), "segmentCount": obj.get("segmentCount"), "spatialLength": obj.get("spatialLength"), "closed": obj.get("closed"), "valid": obj.get("valid") }) return _obj