OpenCV  5.0.0alpha
Open Source Computer Vision
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cv::detail Namespace Reference

Namespaces

namespace  contrib_feature
 
namespace  kalman_filters
 
namespace  online_boosting
 
namespace  tbm
 
namespace  tld
 
namespace  tracking
 

Classes

struct  accepted_infer_types
 
class  AffineBasedEstimator
 Affine transformation based estimator. More...
 
class  AffineBestOf2NearestMatcher
 Features matcher similar to cv::detail::BestOf2NearestMatcher which finds two best matches for each feature and leaves the best one only if the ratio between descriptor distances is greater than the threshold match_conf. More...
 
class  AffineWarper
 Affine warper that uses rotations and translations. More...
 
class  AugmentedUnscentedKalmanFilterParams
 Augmented Unscented Kalman filter parameters. The class for initialization parameters of Augmented Unscented Kalman filter. More...
 
class  BaseClassifier
 
class  BasicOpaqueRef
 
class  BasicVectorRef
 
class  BestOf2NearestMatcher
 Features matcher which finds two best matches for each feature and leaves the best one only if the ratio between descriptor distances is greater than the threshold match_conf. More...
 
class  BestOf2NearestRangeMatcher
 
class  Blender
 Base class for all blenders. More...
 
class  BlocksChannelsCompensator
 Exposure compensator which tries to remove exposure related artifacts by adjusting image block on each channel. More...
 
class  BlocksCompensator
 Exposure compensator which tries to remove exposure related artifacts by adjusting image blocks. More...
 
class  BlocksGainCompensator
 Exposure compensator which tries to remove exposure related artifacts by adjusting image block intensities, see [280] for details. More...
 
class  BundleAdjusterAffine
 Bundle adjuster that expects affine transformation represented in homogeneous coordinates in R for each camera param. Implements camera parameters refinement algorithm which minimizes sum of the reprojection error squares. More...
 
class  BundleAdjusterAffinePartial
 Bundle adjuster that expects affine transformation with 4 DOF represented in homogeneous coordinates in R for each camera param. Implements camera parameters refinement algorithm which minimizes sum of the reprojection error squares. More...
 
class  BundleAdjusterBase
 Base class for all camera parameters refinement methods. More...
 
class  BundleAdjusterRay
 Implementation of the camera parameters refinement algorithm which minimizes sum of the distances between the rays passing through the camera center and a feature. : More...
 
class  BundleAdjusterReproj
 Implementation of the camera parameters refinement algorithm which minimizes sum of the reprojection error squares. More...
 
struct  callCustomGetBorder
 
struct  callCustomGetBorder< false, Impl >
 
struct  callCustomGetBorder< true, Impl >
 
struct  CameraParams
 Describes camera parameters. More...
 
class  ChannelsCompensator
 Exposure compensator which tries to remove exposure related artifacts by adjusting image intensities on each channel independently. More...
 
class  ClassifierThreshold
 
struct  CompileArgTag
 
struct  CompileArgTag< cv::gapi::calib3d::cpu::StereoInitParam >
 
struct  CompileArgTag< cv::gapi::GNetPackage >
 
struct  CompileArgTag< cv::gapi::ot::ObjectTrackerParams >
 
struct  CompileArgTag< cv::gapi::plaidml::config >
 
struct  CompileArgTag< cv::gapi::streaming::queue_capacity >
 
struct  CompileArgTag< cv::gapi::use_only >
 
struct  CompileArgTag< cv::gapi::video::BackgroundSubtractorParams >
 
struct  CompileArgTag< cv::gapi::wip::draw::freetype_font >
 
struct  CompileArgTag< cv::gapi::wip::ov::benchmark_mode >
 
struct  CompileArgTag< cv::GKernelPackage >
 
struct  CompileArgTag< cv::graph_dump_path >
 
struct  CompileArgTag< cv::use_threaded_executor >
 
struct  CompileArgTag< gapi::oak::ColorCameraParams >
 
struct  CompileArgTag< gapi::oak::EncoderConfig >
 
struct  CompileArgTag< gapi::streaming::sync_policy >
 
struct  CompileArgTag< GFluidOutputRois >
 
struct  CompileArgTag< GFluidParallelFor >
 
struct  CompileArgTag< GFluidParallelOutputRois >
 
struct  CompressedRectilinearPortraitProjector
 
class  CompressedRectilinearPortraitWarper
 
struct  CompressedRectilinearProjector
 
class  CompressedRectilinearWarper
 
struct  contains_shape_field
 
struct  contains_shape_field< TaggedTypeCandidate, void_t< decltype(TaggedTypeCandidate::shape)> >
 
class  CvFeatureEvaluator
 
class  CvFeatureParams
 
class  CvHaarEvaluator
 
class  CvHaarFeatureParams
 
class  CvHOGEvaluator
 
struct  CvHOGFeatureParams
 
class  CvLBPEvaluator
 
struct  CvLBPFeatureParams
 
class  CvParams
 
struct  CylindricalPortraitProjector
 
class  CylindricalPortraitWarper
 
struct  CylindricalProjector
 
class  CylindricalWarper
 Warper that maps an image onto the x*x + z*z = 1 cylinder. More...
 
class  CylindricalWarperGpu
 
class  Detector
 
class  DisjointSets
 
class  DpSeamFinder
 
class  EstimatedGaussDistribution
 
class  Estimator
 Rotation estimator base class. More...
 
class  ExposureCompensator
 Base class for all exposure compensators. More...
 
struct  ExtractArgsCallback
 
struct  ExtractMetaCallback
 
class  FeatherBlender
 Simple blender which mixes images at its borders. More...
 
class  FeaturesMatcher
 Feature matchers base class. More...
 
struct  FisheyeProjector
 
class  FisheyeWarper
 
struct  flatten_g
 
struct  flatten_g< cv::GMat >
 
struct  flatten_g< cv::GScalar >
 
struct  flatten_g< GArray< T > >
 
struct  fluid_get_in
 
struct  fluid_get_in< cv::GArray< U > >
 
struct  fluid_get_in< cv::GMat >
 
struct  fluid_get_in< cv::GOpaque< U > >
 
struct  fluid_get_in< cv::GScalar >
 
struct  FluidCallHelper
 
struct  FluidCallHelper< Impl, std::tuple< Ins... >, std::tuple< Outs... >, UseScratch >
 
class  GainCompensator
 Exposure compensator which tries to remove exposure related artifacts by adjusting image intensities, see [41] and [306] for details. More...
 
class  GArrayU
 
struct  GCompoundCallHelper
 
struct  GCompoundCallHelper< Impl, std::tuple< Ins... >, std::tuple< Outs... > >
 
struct  GCompoundContext
 
class  GCompoundKernel
 
class  GCompoundKernelImpl
 
struct  get_border_helper
 
struct  get_border_helper< false, Impl, Ins... >
 
struct  get_border_helper< true, Impl, Ins... >
 
struct  get_compound_in
 
struct  get_compound_in< cv::GArray< U > >
 
struct  get_compound_in< cv::GMatP >
 
struct  get_compound_in< cv::GOpaque< U > >
 
struct  get_in
 
struct  get_in< cv::GArray< cv::GArray< U > > >
 
struct  get_in< cv::GArray< cv::GMat > >
 
struct  get_in< cv::GArray< cv::GScalar > >
 
struct  get_in< cv::GArray< U > >
 
struct  get_in< cv::GFrame >
 
struct  get_in< cv::GMat >
 
struct  get_in< cv::GMatP >
 
struct  get_in< cv::GOpaque< cv::GMat > >
 
struct  get_in< cv::GOpaque< cv::GScalar > >
 
struct  get_in< cv::GOpaque< U > >
 
struct  get_in< cv::GScalar >
 
struct  get_out
 
struct  get_out< cv::GArray< cv::GArray< U > > >
 
struct  get_out< cv::GArray< cv::GMat > >
 
struct  get_out< cv::GArray< U > >
 
struct  get_out< cv::GFrame >
 
struct  get_out< cv::GMat >
 
struct  get_out< cv::GMatP >
 
struct  get_out< cv::GOpaque< U > >
 
struct  get_out< cv::GScalar >
 
struct  get_window_helper
 
struct  get_window_helper< false, Impl, Ins... >
 
struct  get_window_helper< true, Impl, Ins... >
 
class  GInferInputsTyped
 
class  GInferOutputsTyped
 
struct  GObtainCtor
 
struct  GObtainCtor< GArray< T > >
 
struct  GObtainCtor< GOpaque< T > >
 
struct  GOpaqueTraits
 
struct  GOpaqueTraits< bool >
 
struct  GOpaqueTraits< cv::gapi::wip::draw::Prim >
 
struct  GOpaqueTraits< cv::GMat >
 
struct  GOpaqueTraits< cv::Mat >
 
struct  GOpaqueTraits< cv::Point >
 
struct  GOpaqueTraits< cv::Point2f >
 
struct  GOpaqueTraits< cv::Point3f >
 
struct  GOpaqueTraits< cv::Rect >
 
struct  GOpaqueTraits< cv::Scalar >
 
struct  GOpaqueTraits< cv::Size >
 
struct  GOpaqueTraits< double >
 
struct  GOpaqueTraits< float >
 
struct  GOpaqueTraits< int >
 
struct  GOpaqueTraits< int64_t >
 
struct  GOpaqueTraits< std::string >
 
struct  GOpaqueTraits< uint64_t >
 
class  GOpaqueU
 
class  Graph
 
class  GraphCutSeamFinder
 Minimum graph cut-based seam estimator. See details in [153] . More...
 
class  GraphCutSeamFinderBase
 Base class for all minimum graph-cut-based seam estimators. More...
 
struct  GraphEdge
 
struct  GTypeOf
 
struct  GTypeOf< cv::gapi::wip::IStreamSource::Ptr >
 
struct  GTypeOf< cv::Mat >
 
struct  GTypeOf< cv::MediaFrame >
 
struct  GTypeOf< cv::RMat >
 
struct  GTypeOf< cv::Scalar >
 
struct  GTypeOf< cv::UMat >
 
struct  GTypeOf< std::vector< U > >
 
struct  GTypeTraits
 
struct  GTypeTraits< cv::GArray< T > >
 
struct  GTypeTraits< cv::GFrame >
 
struct  GTypeTraits< cv::GMat >
 
struct  GTypeTraits< cv::GMatP >
 
struct  GTypeTraits< cv::GOpaque< T > >
 
struct  GTypeTraits< cv::GScalar >
 
struct  has_custom_wrap
 
struct  has_gshape
 
struct  has_Window
 
class  HomographyBasedEstimator
 Homography based rotation estimator. More...
 
struct  ImageFeatures
 Structure containing image keypoints and descriptors. More...
 
struct  in_variant
 
struct  in_variant< T, util::variant< Types... > >
 
struct  InferROITraits
 
struct  InferROITraits< GInferListBase >
 
struct  InferROITraits< GInferROIBase >
 
struct  InOutInfo
 
struct  is_gmat_type
 
struct  is_meta_descr
 
struct  is_meta_descr< GArrayDesc >
 
struct  is_meta_descr< GMatDesc >
 
struct  is_meta_descr< GOpaqueDesc >
 
struct  is_meta_descr< GScalarDesc >
 
struct  KernelTag
 
class  KernelTypeMedium
 
class  KernelTypeMedium< K, std::function< R(Args...)> >
 
class  KernelTypeMedium< K, std::function< std::tuple< R... >(Args...)> >
 
struct  last_type
 
struct  last_type< T >
 
struct  last_type< T, Ts... >
 
class  LevMarqBackend
 
class  LevMarqBase
 Base class for Levenberg-Marquadt solvers. More...
 
struct  MatchesInfo
 Structure containing information about matches between two images. More...
 
struct  MercatorProjector
 
class  MercatorWarper
 
struct  MetaHelper
 
struct  MetaHelper< K, std::tuple< Ins... >, Out >
 
struct  MetaHelper< K, std::tuple< Ins... >, std::tuple< Outs... > >
 
struct  MetaType
 
struct  MetaType< cv::GArray< U > >
 
struct  MetaType< cv::GFrame >
 
struct  MetaType< cv::GMat >
 
struct  MetaType< cv::GMatP >
 
struct  MetaType< cv::GOpaque< U > >
 
struct  MetaType< cv::GScalar >
 
class  MultiBandBlender
 Blender which uses multi-band blending algorithm (see [45]). More...
 
class  NoBundleAdjuster
 Stub bundle adjuster that does nothing. More...
 
class  NoExposureCompensator
 Stub exposure compensator which does nothing. More...
 
class  NoSeamFinder
 Stub seam estimator which does nothing. More...
 
struct  NoTag
 
struct  ocl_get_in
 
struct  ocl_get_in< cv::GArray< U > >
 
struct  ocl_get_in< cv::GFrame >
 
struct  ocl_get_in< cv::GMat >
 
struct  ocl_get_in< cv::GOpaque< U > >
 
struct  ocl_get_in< cv::GScalar >
 
struct  ocl_get_out
 
struct  ocl_get_out< cv::GArray< U > >
 
struct  ocl_get_out< cv::GMat >
 
struct  ocl_get_out< cv::GOpaque< U > >
 
struct  ocl_get_out< cv::GScalar >
 
struct  OCLCallHelper
 
struct  OCLCallHelper< Impl, std::tuple< Ins... >, std::tuple< Outs... > >
 
struct  OCVCallHelper
 
struct  OCVCallHelper< Impl, std::tuple< Ins... >, std::tuple< Outs... > >
 
struct  OCVSetupHelper
 
struct  OCVSetupHelper< Impl, std::tuple< Ins... > >
 
struct  OCVStCallHelper
 
struct  OCVStCallHelper< Impl, std::tuple< Ins... >, std::tuple< Outs... > >
 
class  OpaqueRef
 
class  OpaqueRefT
 
struct  OptRef
 
class  PairwiseSeamFinder
 Base class for all pairwise seam estimators. More...
 
struct  PaniniPortraitProjector
 
class  PaniniPortraitWarper
 
struct  PaniniProjector
 
class  PaniniWarper
 
struct  plaidml_get_in
 
struct  plaidml_get_in< cv::GMat >
 
struct  plaidml_get_out
 
struct  plaidml_get_out< cv::GMat >
 
struct  PlaidMLCallHelper
 
struct  PlaidMLCallHelper< Impl, std::tuple< Ins... >, std::tuple< Outs... > >
 
struct  PlanePortraitProjector
 
class  PlanePortraitWarper
 
struct  PlaneProjector
 
class  PlaneWarper
 Warper that maps an image onto the z = 1 plane. More...
 
class  PlaneWarperGpu
 
class  PoseGraph
 
struct  ProjectorBase
 Base class for warping logic implementation. More...
 
struct  ProtoToMeta
 
struct  ProtoToMeta< cv::GArray< U > >
 
struct  ProtoToMeta< cv::GMat >
 
struct  ProtoToMeta< cv::GOpaque< U > >
 
struct  ProtoToMeta< cv::GScalar >
 
struct  ProtoToParam
 
struct  ProtoToParam< cv::GArray< cv::GMat > >
 
struct  ProtoToParam< cv::GArray< U > >
 
struct  ProtoToParam< cv::GMat >
 
struct  ProtoToParam< cv::GOpaque< U > >
 
struct  ProtoToParam< cv::GScalar >
 
class  RotationWarper
 Rotation-only model image warper interface. More...
 
class  RotationWarperBase
 Base class for rotation-based warper using a detail::ProjectorBase_ derived class. More...
 
struct  scratch_helper
 
struct  scratch_helper< false, Impl, Ins... >
 
struct  scratch_helper< true, Impl, Ins... >
 
class  SeamFinder
 Base class for a seam estimator. More...
 
struct  SphericalPortraitProjector
 
class  SphericalPortraitWarper
 
struct  SphericalProjector
 
class  SphericalWarper
 Warper that maps an image onto the unit sphere located at the origin. More...
 
class  SphericalWarperGpu
 
struct  StereographicProjector
 
class  StereographicWarper
 
class  StrongClassifierDirectSelection
 
class  Submap
 
class  SubmapManager
 : Manages all the created submaps for a particular scene More...
 
class  Timelapser
 
class  TimelapserCrop
 
struct  tracked_cv_mat
 
struct  tracked_cv_umat
 
class  TrackerContribFeature
 Abstract base class for TrackerContribFeature that represents the feature. More...
 
class  TrackerContribFeatureHAAR
 TrackerContribFeature based on HAAR features, used by TrackerMIL and many others algorithms. More...
 
class  TrackerContribFeatureSet
 Class that manages the extraction and selection of features. More...
 
class  TrackerContribSampler
 Class that manages the sampler in order to select regions for the update the model of the tracker [AAM] Sampling e Labeling. See table I and section III B. More...
 
class  TrackerContribSamplerAlgorithm
 Abstract base class for TrackerContribSamplerAlgorithm that represents the algorithm for the specific sampler. More...
 
class  TrackerContribSamplerCSC
 TrackerSampler based on CSC (current state centered), used by MIL algorithm TrackerMIL. More...
 
class  TrackerFeature
 Abstract base class for TrackerFeature that represents the feature. More...
 
class  TrackerFeatureFeature2d
 TrackerContribFeature based on Feature2D. More...
 
class  TrackerFeatureHOG
 TrackerContribFeature based on HOG. More...
 
class  TrackerFeatureLBP
 TrackerContribFeature based on LBP. More...
 
class  TrackerFeatureSet
 Class that manages the extraction and selection of features. More...
 
class  TrackerModel
 Abstract class that represents the model of the target. More...
 
class  TrackerSampler
 Class that manages the sampler in order to select regions for the update the model of the tracker [AAM] Sampling e Labeling. See table I and section III B. More...
 
class  TrackerSamplerAlgorithm
 Abstract base class for TrackerSamplerAlgorithm that represents the algorithm for the specific sampler. More...
 
class  TrackerSamplerCS
 TrackerContribSampler based on CS (current state), used by algorithm TrackerBoosting. More...
 
class  TrackerSamplerCSC
 TrackerSampler based on CSC (current state centered), used by MIL algorithm TrackerMIL. More...
 
class  TrackerSamplerPF
 This sampler is based on particle filtering. More...
 
class  TrackerStateEstimator
 Abstract base class for TrackerStateEstimator that estimates the most likely target state. More...
 
class  TrackerStateEstimatorAdaBoosting
 TrackerStateEstimatorAdaBoosting based on ADA-Boosting. More...
 
class  TrackerStateEstimatorSVM
 TrackerStateEstimator based on SVM. More...
 
class  TrackerTargetState
 Abstract base class for TrackerTargetState that represents a possible state of the target. More...
 
struct  TransformTag
 
struct  TransHelper
 
struct  TransHelper< K, std::tuple< Ins... >, Out >
 
struct  TransverseMercatorProjector
 
class  TransverseMercatorWarper
 
struct  TypeHint
 
struct  TypeHintBase
 
class  UkfSystemModel
 Model of dynamical system for Unscented Kalman filter. The interface for dynamical system model. It contains functions for computing the next state and the measurement. It must be inherited for using UKF. More...
 
class  UnscentedKalmanFilter
 The interface for Unscented Kalman filter and Augmented Unscented Kalman filter. More...
 
class  UnscentedKalmanFilterParams
 Unscented Kalman filter parameters. The class for initialization parameters of Unscented Kalman filter. More...
 
struct  valid_infer2_types
 
struct  valid_infer2_types< std::tuple< cv::GMat >, std::tuple< T > >
 
struct  valid_infer2_types< std::tuple< cv::GMat, Ns... >, std::tuple< T, Ts... > >
 
struct  valid_infer2_types< std::tuple< Ns... >, std::tuple<> >
 
struct  valid_infer2_types< std::tuple<>, std::tuple< Ts... > >
 
class  VectorRef
 
class  VectorRefT
 
class  VoronoiSeamFinder
 Voronoi diagram-based seam estimator. More...
 
class  WeakClassifierHaarFeature
 
struct  WrapValue
 
struct  WrapValue< T, typename std::enable_if< has_custom_wrap< T >::value >::type >
 
struct  wref_spec
 
struct  wref_spec< std::vector< T > >
 
struct  Yield
 
struct  Yield< cv::GArray< U > >
 
struct  Yield< cv::GMat >
 
struct  Yield< cv::GMatP >
 
struct  Yield< cv::GOpaque< U > >
 
struct  Yield< cv::GScalar >
 
struct  Yield< GFrame >
 

Typedefs

template<typename... Ts>
using are_meta_descrs = all_satisfy<is_meta_descr, Ts...>
 
template<typename... Ts>
using are_meta_descrs_but_last = all_satisfy<is_meta_descr, typename all_but_last<Ts...>::type>
 
typedef std::vector< std::pair< Ptr< TrackerTargetState >, float > > ConfidenceMap
 Represents the model of the target at frame \(k\) (all states and scores)
 
using ConstructOpaque = std::function<void(OpaqueRef&)>
 
using ConstructVec = std::function<void(VectorRef&)>
 
template<class T >
using g_type_of_t = typename GTypeOf<T>::type
 
using GOpaqueTraitsArrayTypes
 
using GOpaqueTraitsOpaqueTypes
 
using HostCtor
 
template<typename T >
using is_compile_arg = std::is_same<GCompileArg, typename std::decay<T>::type>
 
template<typename T >
using is_garg = std::is_same<GArg, typename std::decay<T>::type>
 
template<typename T >
using is_nongapi_type = std::is_same<T, typename MetaType<T>::type>
 
template<typename... Ts>
using last_type_t = typename last_type<Ts...>::type
 
using OptionalOpaqueRef = OptRef<cv::detail::OpaqueRef>
 
using OptionalVectorRef = OptRef<cv::detail::VectorRef>
 
template<typename T >
using ProtoToMetaT = typename ProtoToMeta<T>::type
 
template<typename T >
using ProtoToParamT = typename ProtoToParam<T>::type
 
typedef std::vector< Ptr< TrackerTargetState > > Trajectory
 Represents the estimate states for all frames.
 
template<typename... Ts>
using valid_infer_types = all_satisfy<accepted_infer_types, Ts...>
 
template<typename T >
using wrap_gapi_helper = WrapValue<typename std::decay<T>::type>
 
template<typename T >
using wrap_host_helper = WrapValue<typename std::decay<g_type_of_t<T> >::type>
 

Enumerations

enum class  ArgKind : int {
  OPAQUE_VAL ,
  GOBJREF ,
  GMAT ,
  GMATP ,
  GFRAME ,
  GSCALAR ,
  GARRAY ,
  GOPAQUE
}
 
enum class  OpaqueKind : int {
  CV_UNKNOWN ,
  CV_BOOL ,
  CV_INT ,
  CV_INT64 ,
  CV_DOUBLE ,
  CV_FLOAT ,
  CV_UINT64 ,
  CV_STRING ,
  CV_POINT ,
  CV_POINT2F ,
  CV_POINT3F ,
  CV_SIZE ,
  CV_RECT ,
  CV_SCALAR ,
  CV_MAT ,
  CV_DRAW_PRIM
}
 
enum  WaveCorrectKind {
  WAVE_CORRECT_HORIZ ,
  WAVE_CORRECT_VERT ,
  WAVE_CORRECT_AUTO
}
 

Functions

template<class Feature >
void _writeFeatures (const std::vector< Feature > features, FileStorage &fs, const Mat &featureMap)
 
WaveCorrectKind autoDetectWaveCorrectKind (const std::vector< Mat > &rmats)
 Tries to detect the wave correction kind depending on whether a panorama spans horizontally or vertically.
 
float calcNormFactor (const Mat &sum, const Mat &sqSum)
 
bool calibrateRotatingCamera (const std::vector< Mat > &Hs, Mat &K)
 
void computeImageFeatures (const Ptr< Feature2D > &featuresFinder, InputArray image, ImageFeatures &features, InputArray mask=noArray())
 
void computeImageFeatures (const Ptr< Feature2D > &featuresFinder, InputArrayOfArrays images, std::vector< ImageFeatures > &features, InputArrayOfArrays masks=noArray())
 
void computeInteractionMatrix (const cv::Mat &uv, const cv::Mat &depths, const cv::Mat &K, cv::Mat &J)
 Compute the interaction matrix ( [132] [52] [53] ) for a set of 2D pixels. This is usually used in visual servoing applications to command a robot to move at desired pixel locations/velocities. By inverting this matrix, one can estimate camera spatial velocity i.e., the twist.
 
cv::Vec6d computeTwist (const cv::Mat &uv, const cv::Mat &duv, const cv::Mat &depths, const cv::Mat &K)
 Compute the camera twist from a set of 2D pixel locations, their velocities, depth values and intrinsic parameters of the camera. The pixel velocities are usually obtained from optical flow algorithms, both dense and sparse flow can be used to compute the flow between images and duv computed by dividing the flow by the time interval between the images.
 
void constructGraphOutputs (const cv::GTypesInfo &out_info, cv::GRunArgs &args, cv::GRunArgsP &outs)
 
Ptr< UnscentedKalmanFiltercreateAugmentedUnscentedKalmanFilter (const AugmentedUnscentedKalmanFilterParams &params)
 Augmented Unscented Kalman Filter factory method.
 
void createLaplacePyr (InputArray img, int num_levels, std::vector< UMat > &pyr)
 
void createLaplacePyrGpu (InputArray img, int num_levels, std::vector< UMat > &pyr)
 
Ptr< UnscentedKalmanFiltercreateUnscentedKalmanFilter (const UnscentedKalmanFilterParams &params)
 Unscented Kalman Filter factory method.
 
void createWeightMap (InputArray mask, float sharpness, InputOutputArray weight)
 
void estimateFocal (const std::vector< ImageFeatures > &features, const std::vector< MatchesInfo > &pairwise_matches, std::vector< double > &focals)
 Estimates focal lengths for each given camera.
 
void findMaxSpanningTree (int num_images, const std::vector< MatchesInfo > &pairwise_matches, Graph &span_tree, std::vector< int > &centers)
 
void focalsFromHomography (const Mat &H, double &f0, double &f1, bool &f0_ok, bool &f1_ok)
 Tries to estimate focal lengths from the given homography under the assumption that the camera undergoes rotations around its centre only.
 
template<typename T >
std::enable_if< is_nongapi_type< T >::value, T >::type get_in_meta (const GMetaArgs &, const GArgs &in_args, int idx)
 
template<typename T >
std::enable_if<!is_nongapi_type< T >::value, typenameMetaType< T >::type >::type get_in_meta (const GMetaArgs &in_meta, const GArgs &, int idx)
 
template<typename... Ts, int... Indexes>
static GProtoOutputArgs getGOut_impl (const std::tuple< Ts... > &ts, detail::Seq< Indexes... >)
 
template<typename InferType >
InferROITraits< InferType >::outType inferGenericROI (const std::string &tag, const typename InferROITraits< InferType >::inType &in, const cv::GInferInputs &inputs)
 
std::vector< int > leaveBiggestComponent (std::vector< ImageFeatures > &features, std::vector< MatchesInfo > &pairwise_matches, float conf_threshold)
 
template<typename T >
auto make_default () -> decltype(T{})
 
template<typename InferT >
std::shared_ptr< cv::GCallmakeCall (const std::string &tag, std::vector< cv::GArg > &&args, std::vector< std::string > &&names, cv::GKinds &&kinds)
 
String matchesGraphAsString (std::vector< String > &paths, std::vector< MatchesInfo > &pairwise_matches, float conf_threshold)
 
void normalizeUsingWeightMap (InputArray weight, InputOutputArray src)
 
bool overlapRoi (Point tl1, Point tl2, Size sz1, Size sz2, Rect &roi)
 
template<typename... Ts>
GProtoArgs packArgs (Ts... args)
 
template<typename... Outputs>
void postprocess (Outputs &... outs)
 
template<typename... Outputs>
void postprocess_ocl (Outputs &... outs)
 
void renderPointsNormals (InputArray _points, InputArray _normals, OutputArray image, cv::Vec3f lightLoc)
 
void renderPointsNormalsColors (InputArray _points, InputArray _normals, InputArray _colors, OutputArray image)
 
void restoreImageFromLaplacePyr (std::vector< UMat > &pyr)
 
void restoreImageFromLaplacePyrGpu (std::vector< UMat > &pyr)
 
Rect resultRoi (const std::vector< Point > &corners, const std::vector< Size > &sizes)
 
Rect resultRoi (const std::vector< Point > &corners, const std::vector< UMat > &images)
 
Rect resultRoiIntersection (const std::vector< Point > &corners, const std::vector< Size > &sizes)
 
Point resultTl (const std::vector< Point > &corners)
 
void selectRandomSubset (int count, int size, std::vector< int > &subset)
 
int & stitchingLogLevel ()
 
template<typename T >
gapi::GNetParam strip (T &&t)
 
void unpackBlobs (const cv::GInferInputs::Map &blobs, std::vector< cv::GArg > &args, std::vector< std::string > &names, cv::GKinds &kinds)
 
void waveCorrect (std::vector< Mat > &rmats, WaveCorrectKind kind)
 Tries to make panorama more horizontal (or vertical).
 
template<>
GOptRunArgP wrap_opt_arg (optional< cv::Mat > &m)
 
template<>
GOptRunArgP wrap_opt_arg (optional< cv::MediaFrame > &f)
 
template<>
GOptRunArgP wrap_opt_arg (optional< cv::RMat > &m)
 
template<>
GOptRunArgP wrap_opt_arg (optional< cv::Scalar > &s)
 
template<typename T >
GOptRunArgP wrap_opt_arg (optional< std::vector< T > > &arg)
 
template<typename T >
GOptRunArgP wrap_opt_arg (optional< T > &arg)
 

Typedef Documentation

◆ are_meta_descrs

template<typename... Ts>
using cv::detail::are_meta_descrs = all_satisfy<is_meta_descr, Ts...>

◆ are_meta_descrs_but_last

template<typename... Ts>
using cv::detail::are_meta_descrs_but_last = all_satisfy<is_meta_descr, typename all_but_last<Ts...>::type>

◆ ConstructOpaque

using cv::detail::ConstructOpaque = std::function<void(OpaqueRef&)>

◆ ConstructVec

using cv::detail::ConstructVec = std::function<void(VectorRef&)>

◆ g_type_of_t

template<class T >
using cv::detail::g_type_of_t = typename GTypeOf<T>::type

◆ GOpaqueTraitsArrayTypes

Initial value:
std::tuple<int, double, float, uint64_t, bool, std::string, cv::Size, cv::Scalar, cv::Point, cv::Point2f,
n-dimensional dense array class
Definition mat.hpp:951
Definition variant.hpp:72
Rect2i Rect
Definition types.hpp:499
Point2i Point
Definition types.hpp:209
Size2i Size
Definition types.hpp:373
Point3_< float > Point3f
Definition types.hpp:290
Scalar_< double > Scalar
Definition types.hpp:712
Point_< float > Point2f
Definition types.hpp:207

◆ GOpaqueTraitsOpaqueTypes

Initial value:
std::tuple<int, double, float, uint64_t, bool, std::string, cv::Size, cv::Point, cv::Point2f, cv::Point3f,

◆ HostCtor

Initial value:
util::variant
< util::monostate
, detail::ConstructVec
, detail::ConstructOpaque
>

◆ is_compile_arg

template<typename T >
using cv::detail::is_compile_arg = std::is_same<GCompileArg, typename std::decay<T>::type>

◆ is_garg

template<typename T >
using cv::detail::is_garg = std::is_same<GArg, typename std::decay<T>::type>

◆ is_nongapi_type

template<typename T >
using cv::detail::is_nongapi_type = std::is_same<T, typename MetaType<T>::type>

◆ last_type_t

template<typename... Ts>
using cv::detail::last_type_t = typename last_type<Ts...>::type

◆ OptionalOpaqueRef

◆ OptionalVectorRef

◆ ProtoToMetaT

template<typename T >
using cv::detail::ProtoToMetaT = typename ProtoToMeta<T>::type

◆ ProtoToParamT

template<typename T >
using cv::detail::ProtoToParamT = typename ProtoToParam<T>::type

◆ valid_infer_types

template<typename... Ts>
using cv::detail::valid_infer_types = all_satisfy<accepted_infer_types, Ts...>

◆ wrap_gapi_helper

template<typename T >
using cv::detail::wrap_gapi_helper = WrapValue<typename std::decay<T>::type>

◆ wrap_host_helper

template<typename T >
using cv::detail::wrap_host_helper = WrapValue<typename std::decay<g_type_of_t<T> >::type>

Enumeration Type Documentation

◆ ArgKind

enum class cv::detail::ArgKind : int
strong
Enumerator
OPAQUE_VAL 
GOBJREF 
GMAT 
GMATP 
GFRAME 
GSCALAR 
GARRAY 
GOPAQUE 

◆ OpaqueKind

enum class cv::detail::OpaqueKind : int
strong
Enumerator
CV_UNKNOWN 
CV_BOOL 
CV_INT 
CV_INT64 
CV_DOUBLE 
CV_FLOAT 
CV_UINT64 
CV_STRING 
CV_POINT 
CV_POINT2F 
CV_POINT3F 
CV_SIZE 
CV_RECT 
CV_SCALAR 
CV_MAT 
CV_DRAW_PRIM 

Function Documentation

◆ constructGraphOutputs()

void cv::detail::constructGraphOutputs ( const cv::GTypesInfo & out_info,
cv::GRunArgs & args,
cv::GRunArgsP & outs )

◆ get_in_meta() [1/2]

template<typename T >
std::enable_if< is_nongapi_type< T >::value, T >::type cv::detail::get_in_meta ( const GMetaArgs & ,
const GArgs & in_args,
int idx )

◆ get_in_meta() [2/2]

template<typename T >
std::enable_if<!is_nongapi_type< T >::value, typenameMetaType< T >::type >::type cv::detail::get_in_meta ( const GMetaArgs & in_meta,
const GArgs & ,
int idx )

◆ getGOut_impl()

template<typename... Ts, int... Indexes>
static GProtoOutputArgs cv::detail::getGOut_impl ( const std::tuple< Ts... > & ts,
detail::Seq< Indexes... >  )
static
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◆ inferGenericROI()

template<typename InferType >
InferROITraits< InferType >::outType cv::detail::inferGenericROI ( const std::string & tag,
const typename InferROITraits< InferType >::inType & in,
const cv::GInferInputs & inputs )
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◆ make_default()

template<typename T >
auto cv::detail::make_default ( ) -> decltype(T{})

◆ makeCall()

template<typename InferT >
std::shared_ptr< cv::GCall > cv::detail::makeCall ( const std::string & tag,
std::vector< cv::GArg > && args,
std::vector< std::string > && names,
cv::GKinds && kinds )
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◆ packArgs()

template<typename... Ts>
GProtoArgs cv::detail::packArgs ( Ts... args)
inline

◆ postprocess()

template<typename... Outputs>
void cv::detail::postprocess ( Outputs &... outs)
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◆ postprocess_ocl()

template<typename... Outputs>
void cv::detail::postprocess_ocl ( Outputs &... outs)
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◆ renderPointsNormals()

void cv::detail::renderPointsNormals ( InputArray _points,
InputArray _normals,
OutputArray image,
cv::Vec3f lightLoc )

◆ renderPointsNormalsColors()

void cv::detail::renderPointsNormalsColors ( InputArray _points,
InputArray _normals,
InputArray _colors,
OutputArray image )

◆ strip()

template<typename T >
gapi::GNetParam cv::detail::strip ( T && t)
Python:
cv.detail.strip(params) -> retval

◆ unpackBlobs()

void cv::detail::unpackBlobs ( const cv::GInferInputs::Map & blobs,
std::vector< cv::GArg > & args,
std::vector< std::string > & names,
cv::GKinds & kinds )
inline
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◆ wrap_opt_arg() [1/6]

template<>
GOptRunArgP cv::detail::wrap_opt_arg ( optional< cv::Mat > & m)
inline

◆ wrap_opt_arg() [2/6]

template<>
GOptRunArgP cv::detail::wrap_opt_arg ( optional< cv::MediaFrame > & f)
inline

◆ wrap_opt_arg() [3/6]

template<>
GOptRunArgP cv::detail::wrap_opt_arg ( optional< cv::RMat > & m)
inline

◆ wrap_opt_arg() [4/6]

template<>
GOptRunArgP cv::detail::wrap_opt_arg ( optional< cv::Scalar > & s)
inline

◆ wrap_opt_arg() [5/6]

template<typename T >
GOptRunArgP cv::detail::wrap_opt_arg ( optional< std::vector< T > > & arg)
inline

◆ wrap_opt_arg() [6/6]

template<typename T >
GOptRunArgP cv::detail::wrap_opt_arg ( optional< T > & arg)
inline