from typing import Any, Dict, List, Type, TypeVar, Union import attr from ..models.angle import Angle from ..models.point2d import Point2d from ..models.point3d import Point3d from ..types import UNSET, Unset DQ = TypeVar("DQ", bound="line") @attr.s(auto_attribs=True) class line: """A straight line segment. Goes from the current path "pen" to the given endpoint.""" # noqa: E501 end: Union[Unset, Point3d] = UNSET relative: Union[Unset, bool] = False type: str = "line" additional_properties: Dict[str, Any] = attr.ib(init=False, factory=dict) def to_dict(self) -> Dict[str, Any]: if not isinstance(self.end, Unset): end = self.end relative = self.relative type = self.type field_dict: Dict[str, Any] = {} field_dict.update(self.additional_properties) field_dict.update({}) if end is not UNSET: field_dict["end"] = end if relative is not UNSET: field_dict["relative"] = relative field_dict["type"] = type return field_dict @classmethod def from_dict(cls: Type[DQ], src_dict: Dict[str, Any]) -> DQ: d = src_dict.copy() _end = d.pop("end", UNSET) end: Union[Unset, Point3d] if isinstance(_end, Unset): end = UNSET else: end = _end # type: ignore[arg-type] relative = d.pop("relative", UNSET) type = d.pop("type", UNSET) line = cls( end=end, relative=relative, type=type, ) line.additional_properties = d return line @property def additional_keys(self) -> List[str]: return list(self.additional_properties.keys()) def __getitem__(self, key: str) -> Any: return self.additional_properties[key] def __setitem__(self, key: str, value: Any) -> None: self.additional_properties[key] = value def __delitem__(self, key: str) -> None: del self.additional_properties[key] def __contains__(self, key: str) -> bool: return key in self.additional_properties UY = TypeVar("UY", bound="arc") @attr.s(auto_attribs=True) class arc: """A circular arc segment.""" # noqa: E501 angle_end: Union[Unset, float] = UNSET angle_start: Union[Unset, float] = UNSET center: Union[Unset, Point2d] = UNSET end: Union[Unset, Angle] = UNSET radius: Union[Unset, float] = UNSET relative: Union[Unset, bool] = False start: Union[Unset, Angle] = UNSET type: str = "arc" additional_properties: Dict[str, Any] = attr.ib(init=False, factory=dict) def to_dict(self) -> Dict[str, Any]: angle_end = self.angle_end angle_start = self.angle_start if not isinstance(self.center, Unset): center = self.center if not isinstance(self.end, Unset): end = self.end radius = self.radius relative = self.relative if not isinstance(self.start, Unset): start = self.start type = self.type field_dict: Dict[str, Any] = {} field_dict.update(self.additional_properties) field_dict.update({}) if angle_end is not UNSET: field_dict["angle_end"] = angle_end if angle_start is not UNSET: field_dict["angle_start"] = angle_start if center is not UNSET: field_dict["center"] = center if end is not UNSET: field_dict["end"] = end if radius is not UNSET: field_dict["radius"] = radius if relative is not UNSET: field_dict["relative"] = relative if start is not UNSET: field_dict["start"] = start field_dict["type"] = type return field_dict @classmethod def from_dict(cls: Type[UY], src_dict: Dict[str, Any]) -> UY: d = src_dict.copy() angle_end = d.pop("angle_end", UNSET) angle_start = d.pop("angle_start", UNSET) _center = d.pop("center", UNSET) center: Union[Unset, Point2d] if isinstance(_center, Unset): center = UNSET else: center = _center # type: ignore[arg-type] _end = d.pop("end", UNSET) end: Union[Unset, Angle] if isinstance(_end, Unset): end = UNSET else: end = _end # type: ignore[arg-type] radius = d.pop("radius", UNSET) relative = d.pop("relative", UNSET) _start = d.pop("start", UNSET) start: Union[Unset, Angle] if isinstance(_start, Unset): start = UNSET else: start = _start # type: ignore[arg-type] type = d.pop("type", UNSET) arc = cls( angle_end=angle_end, angle_start=angle_start, center=center, end=end, radius=radius, relative=relative, start=start, type=type, ) arc.additional_properties = d return arc @property def additional_keys(self) -> List[str]: return list(self.additional_properties.keys()) def __getitem__(self, key: str) -> Any: return self.additional_properties[key] def __setitem__(self, key: str, value: Any) -> None: self.additional_properties[key] = value def __delitem__(self, key: str) -> None: del self.additional_properties[key] def __contains__(self, key: str) -> bool: return key in self.additional_properties PD = TypeVar("PD", bound="bezier") @attr.s(auto_attribs=True) class bezier: """A cubic bezier curve segment. Start at the end of the current line, go through control point 1 and 2, then end at a given point.""" # noqa: E501 control1: Union[Unset, Point3d] = UNSET control2: Union[Unset, Point3d] = UNSET end: Union[Unset, Point3d] = UNSET relative: Union[Unset, bool] = False type: str = "bezier" additional_properties: Dict[str, Any] = attr.ib(init=False, factory=dict) def to_dict(self) -> Dict[str, Any]: if not isinstance(self.control1, Unset): control1 = self.control1 if not isinstance(self.control2, Unset): control2 = self.control2 if not isinstance(self.end, Unset): end = self.end relative = self.relative type = self.type field_dict: Dict[str, Any] = {} field_dict.update(self.additional_properties) field_dict.update({}) if control1 is not UNSET: field_dict["control1"] = control1 if control2 is not UNSET: field_dict["control2"] = control2 if end is not UNSET: field_dict["end"] = end if relative is not UNSET: field_dict["relative"] = relative field_dict["type"] = type return field_dict @classmethod def from_dict(cls: Type[PD], src_dict: Dict[str, Any]) -> PD: d = src_dict.copy() _control1 = d.pop("control1", UNSET) control1: Union[Unset, Point3d] if isinstance(_control1, Unset): control1 = UNSET else: control1 = _control1 # type: ignore[arg-type] _control2 = d.pop("control2", UNSET) control2: Union[Unset, Point3d] if isinstance(_control2, Unset): control2 = UNSET else: control2 = _control2 # type: ignore[arg-type] _end = d.pop("end", UNSET) end: Union[Unset, Point3d] if isinstance(_end, Unset): end = UNSET else: end = _end # type: ignore[arg-type] relative = d.pop("relative", UNSET) type = d.pop("type", UNSET) bezier = cls( control1=control1, control2=control2, end=end, relative=relative, type=type, ) bezier.additional_properties = d return bezier @property def additional_keys(self) -> List[str]: return list(self.additional_properties.keys()) def __getitem__(self, key: str) -> Any: return self.additional_properties[key] def __setitem__(self, key: str, value: Any) -> None: self.additional_properties[key] = value def __delitem__(self, key: str) -> None: del self.additional_properties[key] def __contains__(self, key: str) -> bool: return key in self.additional_properties SM = TypeVar("SM", bound="tangential_arc") @attr.s(auto_attribs=True) class tangential_arc: """Adds a tangent arc from current pen position with the given radius and angle.""" # noqa: E501 offset: Union[Unset, Angle] = UNSET radius: Union[Unset, float] = UNSET type: str = "tangential_arc" additional_properties: Dict[str, Any] = attr.ib(init=False, factory=dict) def to_dict(self) -> Dict[str, Any]: if not isinstance(self.offset, Unset): offset = self.offset radius = self.radius type = self.type field_dict: Dict[str, Any] = {} field_dict.update(self.additional_properties) field_dict.update({}) if offset is not UNSET: field_dict["offset"] = offset if radius is not UNSET: field_dict["radius"] = radius field_dict["type"] = type return field_dict @classmethod def from_dict(cls: Type[SM], src_dict: Dict[str, Any]) -> SM: d = src_dict.copy() _offset = d.pop("offset", UNSET) offset: Union[Unset, Angle] if isinstance(_offset, Unset): offset = UNSET else: offset = _offset # type: ignore[arg-type] radius = d.pop("radius", UNSET) type = d.pop("type", UNSET) tangential_arc = cls( offset=offset, radius=radius, type=type, ) tangential_arc.additional_properties = d return tangential_arc @property def additional_keys(self) -> List[str]: return list(self.additional_properties.keys()) def __getitem__(self, key: str) -> Any: return self.additional_properties[key] def __setitem__(self, key: str, value: Any) -> None: self.additional_properties[key] = value def __delitem__(self, key: str) -> None: del self.additional_properties[key] def __contains__(self, key: str) -> bool: return key in self.additional_properties JL = TypeVar("JL", bound="tangential_arc_to") @attr.s(auto_attribs=True) class tangential_arc_to: """Adds a tangent arc from current pen position to the new position.""" # noqa: E501 angle_snap_increment: Union[Unset, Angle] = UNSET to: Union[Unset, Point3d] = UNSET type: str = "tangential_arc_to" additional_properties: Dict[str, Any] = attr.ib(init=False, factory=dict) def to_dict(self) -> Dict[str, Any]: if not isinstance(self.angle_snap_increment, Unset): angle_snap_increment = self.angle_snap_increment if not isinstance(self.to, Unset): to = self.to type = self.type field_dict: Dict[str, Any] = {} field_dict.update(self.additional_properties) field_dict.update({}) if angle_snap_increment is not UNSET: field_dict["angle_snap_increment"] = angle_snap_increment if to is not UNSET: field_dict["to"] = to field_dict["type"] = type return field_dict @classmethod def from_dict(cls: Type[JL], src_dict: Dict[str, Any]) -> JL: d = src_dict.copy() _angle_snap_increment = d.pop("angle_snap_increment", UNSET) angle_snap_increment: Union[Unset, Angle] if isinstance(_angle_snap_increment, Unset): angle_snap_increment = UNSET else: angle_snap_increment = _angle_snap_increment # type: ignore[arg-type] _to = d.pop("to", UNSET) to: Union[Unset, Point3d] if isinstance(_to, Unset): to = UNSET else: to = _to # type: ignore[arg-type] type = d.pop("type", UNSET) tangential_arc_to = cls( angle_snap_increment=angle_snap_increment, to=to, type=type, ) tangential_arc_to.additional_properties = d return tangential_arc_to @property def additional_keys(self) -> List[str]: return list(self.additional_properties.keys()) def __getitem__(self, key: str) -> Any: return self.additional_properties[key] def __setitem__(self, key: str, value: Any) -> None: self.additional_properties[key] = value def __delitem__(self, key: str) -> None: del self.additional_properties[key] def __contains__(self, key: str) -> bool: return key in self.additional_properties PathSegment = Union[line, arc, bezier, tangential_arc, tangential_arc_to]