__all__: list[str] = [] import cv2 import cv2.typing import typing as _typing from cv2.gapi import core as core from cv2.gapi import ie as ie from cv2.gapi import imgproc as imgproc from cv2.gapi import oak as oak from cv2.gapi import onnx as onnx from cv2.gapi import ot as ot from cv2.gapi import ov as ov from cv2.gapi import own as own from cv2.gapi import render as render from cv2.gapi import streaming as streaming from cv2.gapi import video as video from cv2.gapi import wip as wip # Enumerations StereoOutputFormat_DEPTH_FLOAT16: int STEREO_OUTPUT_FORMAT_DEPTH_FLOAT16: int StereoOutputFormat_DEPTH_FLOAT32: int STEREO_OUTPUT_FORMAT_DEPTH_FLOAT32: int StereoOutputFormat_DISPARITY_FIXED16_11_5: int STEREO_OUTPUT_FORMAT_DISPARITY_FIXED16_11_5: int StereoOutputFormat_DISPARITY_FIXED16_12_4: int STEREO_OUTPUT_FORMAT_DISPARITY_FIXED16_12_4: int StereoOutputFormat_DEPTH_16F: int STEREO_OUTPUT_FORMAT_DEPTH_16F: int StereoOutputFormat_DEPTH_32F: int STEREO_OUTPUT_FORMAT_DEPTH_32F: int StereoOutputFormat_DISPARITY_16Q_10_5: int STEREO_OUTPUT_FORMAT_DISPARITY_16Q_10_5: int StereoOutputFormat_DISPARITY_16Q_11_4: int STEREO_OUTPUT_FORMAT_DISPARITY_16Q_11_4: int StereoOutputFormat = int """One of [StereoOutputFormat_DEPTH_FLOAT16, STEREO_OUTPUT_FORMAT_DEPTH_FLOAT16, StereoOutputFormat_DEPTH_FLOAT32, STEREO_OUTPUT_FORMAT_DEPTH_FLOAT32, StereoOutputFormat_DISPARITY_FIXED16_11_5, STEREO_OUTPUT_FORMAT_DISPARITY_FIXED16_11_5, StereoOutputFormat_DISPARITY_FIXED16_12_4, STEREO_OUTPUT_FORMAT_DISPARITY_FIXED16_12_4, StereoOutputFormat_DEPTH_16F, STEREO_OUTPUT_FORMAT_DEPTH_16F, StereoOutputFormat_DEPTH_32F, STEREO_OUTPUT_FORMAT_DEPTH_32F, StereoOutputFormat_DISPARITY_16Q_10_5, STEREO_OUTPUT_FORMAT_DISPARITY_16Q_10_5, StereoOutputFormat_DISPARITY_16Q_11_4, STEREO_OUTPUT_FORMAT_DISPARITY_16Q_11_4]""" CV_BOOL: int CV_INT: int CV_INT64: int CV_UINT64: int CV_DOUBLE: int CV_FLOAT: int CV_STRING: int CV_POINT: int CV_POINT2F: int CV_POINT3F: int CV_SIZE: int CV_RECT: int CV_SCALAR: int CV_MAT: int CV_GMAT: int CV_DRAW_PRIM: int CV_ANY: int ArgType = int """One of [CV_BOOL, CV_INT, CV_INT64, CV_UINT64, CV_DOUBLE, CV_FLOAT, CV_STRING, CV_POINT, CV_POINT2F, CV_POINT3F, CV_SIZE, CV_RECT, CV_SCALAR, CV_MAT, CV_GMAT, CV_DRAW_PRIM, CV_ANY]""" # Classes class GNetParam: ... class GNetPackage: # Functions @_typing.overload def __init__(self) -> None: ... @_typing.overload def __init__(self, nets: _typing.Sequence[GNetParam]) -> None: ... # Functions def BGR2Gray(src: cv2.GMat) -> cv2.GMat: ... def BGR2I420(src: cv2.GMat) -> cv2.GMat: ... def BGR2LUV(src: cv2.GMat) -> cv2.GMat: ... def BGR2RGB(src: cv2.GMat) -> cv2.GMat: ... def BGR2YUV(src: cv2.GMat) -> cv2.GMat: ... def BayerGR2RGB(src_gr: cv2.GMat) -> cv2.GMat: ... def Canny(image: cv2.GMat, threshold1: float, threshold2: float, apertureSize: int = ..., L2gradient: bool = ...) -> cv2.GMat: ... def I4202BGR(src: cv2.GMat) -> cv2.GMat: ... def I4202RGB(src: cv2.GMat) -> cv2.GMat: ... def LUT(src: cv2.GMat, lut: cv2.typing.MatLike) -> cv2.GMat: ... def LUV2BGR(src: cv2.GMat) -> cv2.GMat: ... def Laplacian(src: cv2.GMat, ddepth: int, ksize: int = ..., scale: float = ..., delta: float = ..., borderType: int = ...) -> cv2.GMat: ... def NV12toBGR(src_y: cv2.GMat, src_uv: cv2.GMat) -> cv2.GMat: ... def NV12toGray(src_y: cv2.GMat, src_uv: cv2.GMat) -> cv2.GMat: ... def NV12toRGB(src_y: cv2.GMat, src_uv: cv2.GMat) -> cv2.GMat: ... @_typing.overload def RGB2Gray(src: cv2.GMat) -> cv2.GMat: ... @_typing.overload def RGB2Gray(src: cv2.GMat, rY: float, gY: float, bY: float) -> cv2.GMat: ... def RGB2HSV(src: cv2.GMat) -> cv2.GMat: ... def RGB2I420(src: cv2.GMat) -> cv2.GMat: ... def RGB2Lab(src: cv2.GMat) -> cv2.GMat: ... def RGB2YUV(src: cv2.GMat) -> cv2.GMat: ... def RGB2YUV422(src: cv2.GMat) -> cv2.GMat: ... def Sobel(src: cv2.GMat, ddepth: int, dx: int, dy: int, ksize: int = ..., scale: float = ..., delta: float = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def SobelXY(src: cv2.GMat, ddepth: int, order: int, ksize: int = ..., scale: float = ..., delta: float = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> tuple[cv2.GMat, cv2.GMat]: ... def YUV2BGR(src: cv2.GMat) -> cv2.GMat: ... def YUV2RGB(src: cv2.GMat) -> cv2.GMat: ... def absDiff(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... def absDiffC(src: cv2.GMat, c: cv2.GScalar) -> cv2.GMat: ... def add(src1: cv2.GMat, src2: cv2.GMat, ddepth: int = ...) -> cv2.GMat: ... @_typing.overload def addC(src1: cv2.GMat, c: cv2.GScalar, ddepth: int = ...) -> cv2.GMat: ... @_typing.overload def addC(c: cv2.GScalar, src1: cv2.GMat, ddepth: int = ...) -> cv2.GMat: ... def addWeighted(src1: cv2.GMat, alpha: float, src2: cv2.GMat, beta: float, gamma: float, ddepth: int = ...) -> cv2.GMat: ... def bilateralFilter(src: cv2.GMat, d: int, sigmaColor: float, sigmaSpace: float, borderType: int = ...) -> cv2.GMat: ... @_typing.overload def bitwise_and(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def bitwise_and(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... def bitwise_not(src: cv2.GMat) -> cv2.GMat: ... @_typing.overload def bitwise_or(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def bitwise_or(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def bitwise_xor(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def bitwise_xor(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... def blur(src: cv2.GMat, ksize: cv2.typing.Size, anchor: cv2.typing.Point = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... @_typing.overload def boundingRect(src: cv2.GMat) -> cv2.GOpaqueT: ... @_typing.overload def boundingRect(src: cv2.GArrayT) -> cv2.GOpaqueT: ... @_typing.overload def boundingRect(src: cv2.GArrayT) -> cv2.GOpaqueT: ... def boxFilter(src: cv2.GMat, dtype: int, ksize: cv2.typing.Size, anchor: cv2.typing.Point = ..., normalize: bool = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def cartToPolar(x: cv2.GMat, y: cv2.GMat, angleInDegrees: bool = ...) -> tuple[cv2.GMat, cv2.GMat]: ... @_typing.overload def cmpEQ(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def cmpEQ(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def cmpGE(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def cmpGE(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def cmpGT(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def cmpGT(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def cmpLE(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def cmpLE(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def cmpLT(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def cmpLT(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def cmpNE(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def cmpNE(src1: cv2.GMat, src2: cv2.GScalar) -> cv2.GMat: ... def combine(lhs: cv2.GKernelPackage, rhs: cv2.GKernelPackage) -> cv2.GKernelPackage: ... @_typing.overload def concatHor(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def concatHor(v: _typing.Sequence[cv2.GMat]) -> cv2.GMat: ... @_typing.overload def concatVert(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... @_typing.overload def concatVert(v: _typing.Sequence[cv2.GMat]) -> cv2.GMat: ... def convertTo(src: cv2.GMat, rdepth: int, alpha: float = ..., beta: float = ...) -> cv2.GMat: ... def copy(in_: cv2.GMat) -> cv2.GMat: ... def countNonZero(src: cv2.GMat) -> cv2.GOpaqueT: ... def crop(src: cv2.GMat, rect: cv2.typing.Rect) -> cv2.GMat: ... def dilate(src: cv2.GMat, kernel: cv2.typing.MatLike, anchor: cv2.typing.Point = ..., iterations: int = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def dilate3x3(src: cv2.GMat, iterations: int = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def div(src1: cv2.GMat, src2: cv2.GMat, scale: float, ddepth: int = ...) -> cv2.GMat: ... def divC(src: cv2.GMat, divisor: cv2.GScalar, scale: float, ddepth: int = ...) -> cv2.GMat: ... def divRC(divident: cv2.GScalar, src: cv2.GMat, scale: float, ddepth: int = ...) -> cv2.GMat: ... def equalizeHist(src: cv2.GMat) -> cv2.GMat: ... def erode(src: cv2.GMat, kernel: cv2.typing.MatLike, anchor: cv2.typing.Point = ..., iterations: int = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def erode3x3(src: cv2.GMat, iterations: int = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def filter2D(src: cv2.GMat, ddepth: int, kernel: cv2.typing.MatLike, anchor: cv2.typing.Point = ..., delta: cv2.typing.Scalar = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def flip(src: cv2.GMat, flipCode: int) -> cv2.GMat: ... def gaussianBlur(src: cv2.GMat, ksize: cv2.typing.Size, sigmaX: float, sigmaY: float = ..., borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def goodFeaturesToTrack(image: cv2.GMat, maxCorners: int, qualityLevel: float, minDistance: float, mask: cv2.typing.MatLike | None = ..., blockSize: int = ..., useHarrisDetector: bool = ..., k: float = ...) -> cv2.GArrayT: ... def inRange(src: cv2.GMat, threshLow: cv2.GScalar, threshUp: cv2.GScalar) -> cv2.GMat: ... @_typing.overload def infer(name: str, inputs: cv2.GInferInputs) -> cv2.GInferOutputs: ... @_typing.overload def infer(name: str, roi: cv2.GOpaqueT, inputs: cv2.GInferInputs) -> cv2.GInferOutputs: ... @_typing.overload def infer(name: str, rois: cv2.GArrayT, inputs: cv2.GInferInputs) -> cv2.GInferListOutputs: ... def infer2(name: str, in_: cv2.GMat, inputs: cv2.GInferListInputs) -> cv2.GInferListOutputs: ... def integral(src: cv2.GMat, sdepth: int = ..., sqdepth: int = ...) -> tuple[cv2.GMat, cv2.GMat]: ... @_typing.overload def kmeans(data: cv2.GMat, K: int, bestLabels: cv2.GMat, criteria: cv2.typing.TermCriteria, attempts: int, flags: cv2.KmeansFlags) -> tuple[cv2.GOpaqueT, cv2.GMat, cv2.GMat]: ... @_typing.overload def kmeans(data: cv2.GMat, K: int, criteria: cv2.typing.TermCriteria, attempts: int, flags: cv2.KmeansFlags) -> tuple[cv2.GOpaqueT, cv2.GMat, cv2.GMat]: ... @_typing.overload def kmeans(data: cv2.GArrayT, K: int, bestLabels: cv2.GArrayT, criteria: cv2.typing.TermCriteria, attempts: int, flags: cv2.KmeansFlags) -> tuple[cv2.GOpaqueT, cv2.GArrayT, cv2.GArrayT]: ... @_typing.overload def kmeans(data: cv2.GArrayT, K: int, bestLabels: cv2.GArrayT, criteria: cv2.typing.TermCriteria, attempts: int, flags: cv2.KmeansFlags) -> tuple[cv2.GOpaqueT, cv2.GArrayT, cv2.GArrayT]: ... def mask(src: cv2.GMat, mask: cv2.GMat) -> cv2.GMat: ... def max(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... def mean(src: cv2.GMat) -> cv2.GScalar: ... def medianBlur(src: cv2.GMat, ksize: int) -> cv2.GMat: ... def merge3(src1: cv2.GMat, src2: cv2.GMat, src3: cv2.GMat) -> cv2.GMat: ... def merge4(src1: cv2.GMat, src2: cv2.GMat, src3: cv2.GMat, src4: cv2.GMat) -> cv2.GMat: ... def min(src1: cv2.GMat, src2: cv2.GMat) -> cv2.GMat: ... def morphologyEx(src: cv2.GMat, op: cv2.MorphTypes, kernel: cv2.typing.MatLike, anchor: cv2.typing.Point = ..., iterations: int = ..., borderType: cv2.BorderTypes = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def mul(src1: cv2.GMat, src2: cv2.GMat, scale: float = ..., ddepth: int = ...) -> cv2.GMat: ... @_typing.overload def mulC(src: cv2.GMat, multiplier: float, ddepth: int = ...) -> cv2.GMat: ... @_typing.overload def mulC(src: cv2.GMat, multiplier: cv2.GScalar, ddepth: int = ...) -> cv2.GMat: ... @_typing.overload def mulC(multiplier: cv2.GScalar, src: cv2.GMat, ddepth: int = ...) -> cv2.GMat: ... def normInf(src: cv2.GMat) -> cv2.GScalar: ... def normL1(src: cv2.GMat) -> cv2.GScalar: ... def normL2(src: cv2.GMat) -> cv2.GScalar: ... def normalize(src: cv2.GMat, alpha: float, beta: float, norm_type: int, ddepth: int = ...) -> cv2.GMat: ... @_typing.overload def parseSSD(in_: cv2.GMat, inSz: cv2.GOpaqueT, confidenceThreshold: float = ..., filterLabel: int = ...) -> tuple[cv2.GArrayT, cv2.GArrayT]: ... @_typing.overload def parseSSD(in_: cv2.GMat, inSz: cv2.GOpaqueT, confidenceThreshold: float, alignmentToSquare: bool, filterOutOfBounds: bool) -> cv2.GArrayT: ... def parseYolo(in_: cv2.GMat, inSz: cv2.GOpaqueT, confidenceThreshold: float = ..., nmsThreshold: float = ..., anchors: _typing.Sequence[float] = ...) -> tuple[cv2.GArrayT, cv2.GArrayT]: ... def phase(x: cv2.GMat, y: cv2.GMat, angleInDegrees: bool = ...) -> cv2.GMat: ... def polarToCart(magnitude: cv2.GMat, angle: cv2.GMat, angleInDegrees: bool = ...) -> tuple[cv2.GMat, cv2.GMat]: ... def remap(src: cv2.GMat, map1: cv2.typing.MatLike, map2: cv2.typing.MatLike, interpolation: int, borderMode: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def resize(src: cv2.GMat, dsize: cv2.typing.Size, fx: float = ..., fy: float = ..., interpolation: int = ...) -> cv2.GMat: ... def select(src1: cv2.GMat, src2: cv2.GMat, mask: cv2.GMat) -> cv2.GMat: ... def sepFilter(src: cv2.GMat, ddepth: int, kernelX: cv2.typing.MatLike, kernelY: cv2.typing.MatLike, anchor: cv2.typing.Point, delta: cv2.typing.Scalar, borderType: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def split3(src: cv2.GMat) -> tuple[cv2.GMat, cv2.GMat, cv2.GMat]: ... def split4(src: cv2.GMat) -> tuple[cv2.GMat, cv2.GMat, cv2.GMat, cv2.GMat]: ... def sqrt(src: cv2.GMat) -> cv2.GMat: ... def sub(src1: cv2.GMat, src2: cv2.GMat, ddepth: int = ...) -> cv2.GMat: ... def subC(src: cv2.GMat, c: cv2.GScalar, ddepth: int = ...) -> cv2.GMat: ... def subRC(c: cv2.GScalar, src: cv2.GMat, ddepth: int = ...) -> cv2.GMat: ... def sum(src: cv2.GMat) -> cv2.GScalar: ... @_typing.overload def threshold(src: cv2.GMat, thresh: cv2.GScalar, maxval: cv2.GScalar, type: int) -> cv2.GMat: ... @_typing.overload def threshold(src: cv2.GMat, maxval: cv2.GScalar, type: int) -> tuple[cv2.GMat, cv2.GScalar]: ... def transpose(src: cv2.GMat) -> cv2.GMat: ... def warpAffine(src: cv2.GMat, M: cv2.typing.MatLike, dsize: cv2.typing.Size, flags: int = ..., borderMode: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ... def warpPerspective(src: cv2.GMat, M: cv2.typing.MatLike, dsize: cv2.typing.Size, flags: int = ..., borderMode: int = ..., borderValue: cv2.typing.Scalar = ...) -> cv2.GMat: ...