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__all__: list[str] = []
import cv2
import cv2.typing
import typing as _typing
from cv2.utils import fs as fs
from cv2.utils import nested as nested
# Classes
class ClassWithKeywordProperties:
lambda_: int
@property
def except_(self) -> int: ...
# Functions
def __init__(self, lambda_arg: int = ..., except_arg: int = ...) -> None: ...
# Functions
@_typing.overload
def copyMatAndDumpNamedArguments(src: cv2.typing.MatLike, dst: cv2.typing.MatLike | None = ..., lambda_: int = ..., sigma: float = ...) -> tuple[str, cv2.typing.MatLike]: ...
@_typing.overload
def copyMatAndDumpNamedArguments(src: cv2.UMat, dst: cv2.UMat | None = ..., lambda_: int = ..., sigma: float = ...) -> tuple[str, cv2.UMat]: ...
def dumpBool(argument: bool) -> str: ...
def dumpCString(argument: str) -> str: ...
def dumpDouble(argument: float) -> str: ...
def dumpFloat(argument: float) -> str: ...
@_typing.overload
def dumpInputArray(argument: cv2.typing.MatLike) -> str: ...
@_typing.overload
def dumpInputArray(argument: cv2.UMat) -> str: ...
@_typing.overload
def dumpInputArrayOfArrays(argument: _typing.Sequence[cv2.typing.MatLike]) -> str: ...
@_typing.overload
def dumpInputArrayOfArrays(argument: _typing.Sequence[cv2.UMat]) -> str: ...
@_typing.overload
def dumpInputOutputArray(argument: cv2.typing.MatLike) -> tuple[str, cv2.typing.MatLike]: ...
@_typing.overload
def dumpInputOutputArray(argument: cv2.UMat) -> tuple[str, cv2.UMat]: ...
@_typing.overload
def dumpInputOutputArrayOfArrays(argument: _typing.Sequence[cv2.typing.MatLike]) -> tuple[str, _typing.Sequence[cv2.typing.MatLike]]: ...
@_typing.overload
def dumpInputOutputArrayOfArrays(argument: _typing.Sequence[cv2.UMat]) -> tuple[str, _typing.Sequence[cv2.UMat]]: ...
def dumpInt(argument: int) -> str: ...
def dumpInt64(argument: int) -> str: ...
def dumpRange(argument: cv2.typing.Range) -> str: ...
def dumpRect(argument: cv2.typing.Rect) -> str: ...
def dumpRotatedRect(argument: cv2.typing.RotatedRect) -> str: ...
def dumpSizeT(argument: int) -> str: ...
def dumpString(argument: str) -> str: ...
def dumpTermCriteria(argument: cv2.typing.TermCriteria) -> str: ...
def dumpVec2i(value: cv2.typing.Vec2i = ...) -> str: ...
def dumpVectorOfDouble(vec: _typing.Sequence[float]) -> str: ...
def dumpVectorOfInt(vec: _typing.Sequence[int]) -> str: ...
def dumpVectorOfRect(vec: _typing.Sequence[cv2.typing.Rect]) -> str: ...
def generateVectorOfInt(len: int) -> _typing.Sequence[int]: ...
def generateVectorOfMat(len: int, rows: int, cols: int, dtype: int, vec: _typing.Sequence[cv2.typing.MatLike] | None = ...) -> _typing.Sequence[cv2.typing.MatLike]: ...
def generateVectorOfRect(len: int) -> _typing.Sequence[cv2.typing.Rect]: ...
@_typing.overload
def testAsyncArray(argument: cv2.typing.MatLike) -> cv2.AsyncArray: ...
@_typing.overload
def testAsyncArray(argument: cv2.UMat) -> cv2.AsyncArray: ...
def testAsyncException() -> cv2.AsyncArray: ...
@_typing.overload
def testOverloadResolution(value: int, point: cv2.typing.Point = ...) -> str: ...
@_typing.overload
def testOverloadResolution(rect: cv2.typing.Rect) -> str: ...
def testOverwriteNativeMethod(argument: int) -> int: ...
def testRaiseGeneralException() -> None: ...
def testReservedKeywordConversion(positional_argument: int, lambda_: int = ..., from_: int = ...) -> str: ...
def testRotatedRect(x: float, y: float, w: float, h: float, angle: float) -> cv2.typing.RotatedRect: ...
def testRotatedRectVector(x: float, y: float, w: float, h: float, angle: float) -> _typing.Sequence[cv2.typing.RotatedRect]: ...