Delphi-OpenCV/source/component/ocv.comp.ImageOperation.pas

// *****************************************************************
// Delphi-OpenCV Demo
// Copyright (C) 2013 Project Delphi-OpenCV
// ****************************************************************
// Contributor:
// Laentir Valetov
// email:laex@bk.ru
// ****************************************************************
// You may retrieve the latest version of this file at the GitHub,
// located at git://github.com/Laex/Delphi-OpenCV.git
// ****************************************************************
// The contents of this file are used with permission, subject to
// the Mozilla Public License Version 1.1 (the "License"); you may
// not use this file except in compliance with the License. You may
// obtain a copy of the License at
// http://www.mozilla.org/MPL/MPL-1_1Final.html
//
// Software distributed under the License is distributed on an
// "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
// implied. See the License for the specific language governing
// rights and limitations under the License.
// *******************************************************************

{$IFNDEF CLR}
{$I Opencv.inc}
unit ocv.comp.ImageOperation;
{$ENDIF}

interface

uses
{$IFDEF VER15P}
  Winapi.Windows,
  Vcl.Graphics,
  System.SysUtils,
  System.Classes,
  System.SyncObjs,
  System.Types,
  System.ZLib,
{$ELSE}
  Windows,
  Graphics,
  SysUtils,
  Classes,
  SyncObjs,
{$IFNDEF VER5}
  Types,
{$ENDIF VER5}
  ZLib,
{$ENDIF VER15P}
  ocv.comp.Types,
  ocv.comp.proc,
  ocv.objdetect_c,
  ocv.core.types_c,
  ocv.imgproc.types_c;

type
{$IFDEF VER17P} // XE3..XE6
  TArrayDouble = TArray<Double>;
  TArrayInteger = TArray<Integer>;
  TArrayBoolean = TArray<Boolean>;
{$ELSE} // D7...XE2
  TArrayDouble = Array of Double;
  TArrayInteger = Array of Integer;
  TArrayBoolean = Array of Boolean;
{$ENDIF}

  TocvCustomImageOperation = class(TComponent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FCriticalSection: TCriticalSection;
    FOwner: TPersistent;
    FFloatParams: TArrayDouble;
    FIntParams: TArrayInteger;
    FBoolParams: TArrayBoolean;
    FOnAfterTransform: TOnOcvAfterTransform;
    FOnBeforeTransform: TOnOcvBeforeTransform;
  protected
    function GetFloatParam(const index: Integer): Double; virtual;
    function GetIntParam(const index: Integer): Integer; virtual;
    function GetBoolParam(const index: Integer): Boolean; virtual;
    procedure SetFloatParam(const index: Integer; const Value: Double);
    procedure SetIntParam(const index: Integer; const Value: Integer);
    procedure SetBoolParam(const index: Integer; const Value: Boolean);
    function LockTransform: Boolean;
    procedure UnlockTransform;
    function GetOwner: TPersistent; override;
    property FloatParams[const index: Integer]: Double Read GetFloatParam write SetFloatParam;
    property IntParams[const index: Integer]: Integer Read GetIntParam write SetIntParam;
    property BoolParams[const index: Integer]: Boolean Read GetBoolParam write SetBoolParam;
  public
    constructor Create(AOwner: TPersistent); reintroduce; virtual;
    destructor Destroy; override;
    function Transform(const Source: IocvImage; var Destanation: IocvImage): Boolean;
    function GetNamePath: string; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; virtual;
    property Name;
  published
    property OnAfterTransform: TOnOcvAfterTransform read FOnAfterTransform write FOnAfterTransform;
    property OnBeforeTransform: TOnOcvBeforeTransform read FOnBeforeTransform write FOnBeforeTransform;
  end;

  TocvImageOperationClass = class of TocvCustomImageOperation;

  IocvEditorPropertiesContainer = interface
    ['{418F88DD-E35D-4425-BF24-E753E83D35D6}']
    function GetProperties: TocvCustomImageOperation;
    function GetPropertiesClass: TocvImageOperationClass;
    procedure SetPropertiesClass(Value: TocvImageOperationClass);
  end;

  TocvCustomImageOperationWithNestedOperation = class(TocvCustomImageOperation, IocvEditorPropertiesContainer)
  private
    FOperation: TocvCustomImageOperation;
    FOperationClass: TocvImageOperationClass;
    CS: TCriticalSection;
  protected
    function LockTransform: Boolean;
    procedure UnlockTransform;
    // ---------------------------------------------
    procedure CreateProperties;
    procedure DestroyProperties;
    procedure RecreateProperties;
    // ---------------------------------------------
    function GetPropertiesClassName: string;
    procedure SetPropertiesClassName(const Value: string);

    function GetProperties: TocvCustomImageOperation;
    procedure SetProperties(const Value: TocvCustomImageOperation);

    function GetPropertiesClass: TocvImageOperationClass; virtual;
    procedure SetPropertiesClass(Value: TocvImageOperationClass);

    property Operation: TocvCustomImageOperation read GetProperties write SetProperties;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    property OperationClass: TocvImageOperationClass read GetPropertiesClass write SetPropertiesClass;
  published
    property OperationClassName: string read GetPropertiesClassName write SetPropertiesClassName;
  end;

  TocvNoneOperation = class(TocvCustomImageOperation)
  public
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  end;

  TocvInterpolationMethod = (INTER_NN, INTER_LINEAR, INTER_CUBIC, INTER_AREA, INTER_LANCZOS4);

  TocvResizeOperation = class(TocvCustomImageOperation)
  private
    FInterpolation: TocvInterpolationMethod;
  protected
    procedure AssignTo(Dest: TPersistent); override;
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property DestWidth: Integer index 0 Read GetIntParam write SetIntParam;
    property DestHeight: Integer index 1 Read GetIntParam write SetIntParam;
    property Interpolation: TocvInterpolationMethod read FInterpolation write FInterpolation default INTER_LINEAR;
  end;

  TocvColorConversion = (BGR2BGRA, RGB2RGBA, BGRA2BGR, RGBA2RGB, BGR2RGBA, RGB2BGRA, RGBA2BGR, BGRA2RGB, BGR2RGB, RGB2BGR, BGRA2RGBA,
    RGBA2BGRA, BGR2GRAY, RGB2GRAY, GRAY2BGR, GRAY2RGB, GRAY2BGRA, GRAY2RGBA, BGRA2GRAY, RGBA2GRAY, BGR2BGR565, RGB2BGR565, BGR5652BGR,
    BGR5652RGB, BGRA2BGR565, RGBA2BGR565, BGR5652BGRA, BGR5652RGBA, GRAY2BGR565, BGR5652GRAY, BGR2BGR555, RGB2BGR555, BGR5552BGR,
    BGR5552RGB, BGRA2BGR555, RGBA2BGR555, BGR5552BGRA, BGR5552RGBA, GRAY2BGR555, BGR5552GRAY, BGR2XYZ, RGB2XYZ, XYZ2BGR, XYZ2RGB, BGR2YCrCb,
    RGB2YCrCb, YCrCb2BGR, YCrCb2RGB, BGR2HSV, RGB2HSV, BGR2Lab, RGB2Lab, BayerBG2BGR, BayerGB2BGR, BayerRG2BGR, BayerGR2BGR, BayerBG2RGB,
    BayerGB2RGB, BayerRG2RGB, BayerGR2RGB, BGR2Luv, RGB2Luv, BGR2HLS, RGB2HLS, HSV2BGR, HSV2RGB, Lab2BGR, Lab2RGB, Luv2BGR, Luv2RGB,
    HLS2BGR, HLS2RGB, BayerBG2BGR_VNG, BayerGB2BGR_VNG, BayerRG2BGR_VNG, BayerGR2BGR_VNG, BayerBG2RGB_VNG, BayerGB2RGB_VNG, BayerRG2RGB_VNG,
    BayerGR2RGB_VNG, BGR2HSV_FULL, RGB2HSV_FULL, BGR2HLS_FULL, RGB2HLS_FULL, HSV2BGR_FULL, HSV2RGB_FULL, HLS2BGR_FULL, HLS2RGB_FULL,
    LBGR2Lab, LRGB2Lab, LBGR2Luv, LRGB2Luv, Lab2LBGR, Lab2LRGB, Luv2LBGR, Luv2LRGB, BGR2YUV, RGB2YUV, YUV2BGR, YUV2RGB, BayerBG2GRAY,
    BayerGB2GRAY, BayerRG2GRAY, BayerGR2GRAY,
    // YUV 4:2:0 formats family;
    YUV2RGB_NV12, YUV2BGR_NV12, YUV2RGB_NV21, YUV2BGR_NV21, YUV420sp2RGB, YUV420sp2BGR, YUV2RGBA_NV12, YUV2BGRA_NV12, YUV2RGBA_NV21,
    YUV2BGRA_NV21, YUV420sp2RGBA, YUV420sp2BGRA, YUV2RGB_YV12, YUV2BGR_YV12, YUV2RGB_IYUV, YUV2BGR_IYUV, YUV2RGB_I420, YUV2BGR_I420,
    YUV420p2RGB, YUV420p2BGR, YUV2RGBA_YV12, YUV2BGRA_YV12, YUV2RGBA_IYUV, YUV2BGRA_IYUV, YUV2RGBA_I420, YUV2BGRA_I420, YUV420p2RGBA,
    YUV420p2BGRA, YUV2GRAY_420, YUV2GRAY_NV21, YUV2GRAY_NV12, YUV2GRAY_YV12, YUV2GRAY_IYUV, YUV2GRAY_I420, YUV420sp2GRAY, YUV420p2GRAY,
    // YUV 4:2:2 formats family;
    YUV2RGB_UYVY, YUV2BGR_UYVY, YUV2RGB_Y422, YUV2BGR_Y422, YUV2RGB_UYNV, YUV2BGR_UYNV, YUV2RGBA_UYVY, YUV2BGRA_UYVY, YUV2RGBA_Y422,
    YUV2BGRA_Y422, YUV2RGBA_UYNV, YUV2BGRA_UYNV, YUV2RGB_YUY2, YUV2BGR_YUY2, YUV2RGB_YVYU, YUV2BGR_YVYU, YUV2RGB_YUYV, YUV2BGR_YUYV,
    YUV2RGB_YUNV, YUV2BGR_YUNV, YUV2RGBA_YUY2, YUV2BGRA_YUY2, YUV2RGBA_YVYU, YUV2BGRA_YVYU, YUV2RGBA_YUYV, YUV2BGRA_YUYV, YUV2RGBA_YUNV,
    YUV2BGRA_YUNV, YUV2GRAY_UYVY, YUV2GRAY_YUY2, YUV2GRAY_Y422, YUV2GRAY_UYNV, YUV2GRAY_YVYU, YUV2GRAY_YUYV, YUV2GRAY_YUNV,
    // alpha premultiplication;
    RGBA2mRGBA, mRGBA2RGBA, COLORCVT_MAX);

  TocvIPLDepth = (DEPTH_1U, DEPTH_8U, DEPTH_16U, DEPTH_32F, DEPTH_64F, DEPTH_8S, DEPTH_16S, DEPTH_32S);

  TocvCvtColorOperation = class(TocvCustomImageOperation)
  private const
    cIPLDepth: array [TocvIPLDepth] of Integer = (IPL_DEPTH_1U, IPL_DEPTH_8U, IPL_DEPTH_16U, IPL_DEPTH_32F, IPL_DEPTH_64F,
      (IPL_DEPTH_SIGN or 8), IPL_DEPTH_16S, IPL_DEPTH_32S);

    cColorConversion: array [TocvColorConversion] of Integer = (CV_BGR2BGRA, CV_RGB2RGBA, CV_BGRA2BGR, CV_RGBA2RGB, CV_BGR2RGBA,
      CV_RGB2BGRA, CV_RGBA2BGR, CV_BGRA2RGB, CV_BGR2RGB, CV_RGB2BGR, CV_BGRA2RGBA, CV_RGBA2BGRA, CV_BGR2GRAY, CV_RGB2GRAY, CV_GRAY2BGR,
      CV_GRAY2RGB, CV_GRAY2BGRA, CV_GRAY2RGBA, CV_BGRA2GRAY, CV_RGBA2GRAY, CV_BGR2BGR565, CV_RGB2BGR565, CV_BGR5652BGR, CV_BGR5652RGB,
      CV_BGRA2BGR565, CV_RGBA2BGR565, CV_BGR5652BGRA, CV_BGR5652RGBA, CV_GRAY2BGR565, CV_BGR5652GRAY, CV_BGR2BGR555, CV_RGB2BGR555,
      CV_BGR5552BGR, CV_BGR5552RGB, CV_BGRA2BGR555, CV_RGBA2BGR555, CV_BGR5552BGRA, CV_BGR5552RGBA, CV_GRAY2BGR555, CV_BGR5552GRAY,
      CV_BGR2XYZ, CV_RGB2XYZ, CV_XYZ2BGR, CV_XYZ2RGB, CV_BGR2YCrCb, CV_RGB2YCrCb, CV_YCrCb2BGR, CV_YCrCb2RGB, CV_BGR2HSV, CV_RGB2HSV,
      CV_BGR2Lab, CV_RGB2Lab, CV_BayerBG2BGR, CV_BayerGB2BGR, CV_BayerRG2BGR, CV_BayerGR2BGR, CV_BayerBG2RGB, CV_BayerGB2RGB,
      CV_BayerRG2RGB, CV_BayerGR2RGB, CV_BGR2Luv, CV_RGB2Luv, CV_BGR2HLS, CV_RGB2HLS, CV_HSV2BGR, CV_HSV2RGB, CV_Lab2BGR, CV_Lab2RGB,
      CV_Luv2BGR, CV_Luv2RGB, CV_HLS2BGR, CV_HLS2RGB, CV_BayerBG2BGR_VNG, CV_BayerGB2BGR_VNG, CV_BayerRG2BGR_VNG, CV_BayerGR2BGR_VNG,
      CV_BayerBG2RGB_VNG, CV_BayerGB2RGB_VNG, CV_BayerRG2RGB_VNG, CV_BayerGR2RGB_VNG, CV_BGR2HSV_FULL, CV_RGB2HSV_FULL, CV_BGR2HLS_FULL,
      CV_RGB2HLS_FULL, CV_HSV2BGR_FULL, CV_HSV2RGB_FULL, CV_HLS2BGR_FULL, CV_HLS2RGB_FULL, CV_LBGR2Lab, CV_LRGB2Lab, CV_LBGR2Luv,
      CV_LRGB2Luv, CV_Lab2LBGR, CV_Lab2LRGB, CV_Luv2LBGR, CV_Luv2LRGB, CV_BGR2YUV, CV_RGB2YUV, CV_YUV2BGR, CV_YUV2RGB, CV_BayerBG2GRAY,
      CV_BayerGB2GRAY, CV_BayerRG2GRAY, CV_BayerGR2GRAY,
      // YUV 4:2:0 formats family;
      CV_YUV2RGB_NV12, CV_YUV2BGR_NV12, CV_YUV2RGB_NV21, CV_YUV2BGR_NV21, CV_YUV420sp2RGB, CV_YUV420sp2BGR, CV_YUV2RGBA_NV12,
      CV_YUV2BGRA_NV12, CV_YUV2RGBA_NV21, CV_YUV2BGRA_NV21, CV_YUV420sp2RGBA, CV_YUV420sp2BGRA, CV_YUV2RGB_YV12, CV_YUV2BGR_YV12,
      CV_YUV2RGB_IYUV, CV_YUV2BGR_IYUV, CV_YUV2RGB_I420, CV_YUV2BGR_I420, CV_YUV420p2RGB, CV_YUV420p2BGR, CV_YUV2RGBA_YV12,
      CV_YUV2BGRA_YV12, CV_YUV2RGBA_IYUV, CV_YUV2BGRA_IYUV, CV_YUV2RGBA_I420, CV_YUV2BGRA_I420, CV_YUV420p2RGBA, CV_YUV420p2BGRA,
      CV_YUV2GRAY_420, CV_YUV2GRAY_NV21, CV_YUV2GRAY_NV12, CV_YUV2GRAY_YV12, CV_YUV2GRAY_IYUV, CV_YUV2GRAY_I420, CV_YUV420sp2GRAY,
      CV_YUV420p2GRAY,
      // YUV 4:2:2 formats family;
      CV_YUV2RGB_UYVY, CV_YUV2BGR_UYVY, CV_YUV2RGB_Y422, CV_YUV2BGR_Y422, CV_YUV2RGB_UYNV, CV_YUV2BGR_UYNV, CV_YUV2RGBA_UYVY,
      CV_YUV2BGRA_UYVY, CV_YUV2RGBA_Y422, CV_YUV2BGRA_Y422, CV_YUV2RGBA_UYNV, CV_YUV2BGRA_UYNV, CV_YUV2RGB_YUY2, CV_YUV2BGR_YUY2,
      CV_YUV2RGB_YVYU, CV_YUV2BGR_YVYU, CV_YUV2RGB_YUYV, CV_YUV2BGR_YUYV, CV_YUV2RGB_YUNV, CV_YUV2BGR_YUNV, CV_YUV2RGBA_YUY2,
      CV_YUV2BGRA_YUY2, CV_YUV2RGBA_YVYU, CV_YUV2BGRA_YVYU, CV_YUV2RGBA_YUYV, CV_YUV2BGRA_YUYV, CV_YUV2RGBA_YUNV, CV_YUV2BGRA_YUNV,
      CV_YUV2GRAY_UYVY, CV_YUV2GRAY_YUY2, CV_YUV2GRAY_Y422, CV_YUV2GRAY_UYNV, CV_YUV2GRAY_YVYU, CV_YUV2GRAY_YUYV, CV_YUV2GRAY_YUNV,
      // alpha premultiplication;
      CV_RGBA2mRGBA, CV_mRGBA2RGBA, CV_COLORCVT_MAX);
  private
    FColorConversion: TocvColorConversion;
    // FAutoCalcParams: Boolean;
    FChannels: Integer;
    FDepth: TocvIPLDepth;
  public
    constructor Create(AOwner: TPersistent); override;
    // procedure CalculateImageParams(const Source: IocvImage);
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    // property AutoCalcParams: Boolean read FAutoCalcParams write FAutoCalcParams default True;
    property ColorConversion: TocvColorConversion read FColorConversion write FColorConversion default RGB2GRAY;
    property Depth: TocvIPLDepth Read FDepth write FDepth;
    property Channels: Integer read FChannels write FChannels;
  end;

  TocvGrayScaleOperation = class(TocvCvtColorOperation)
  public
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
    property ColorConversion;
    property Depth;
    property Channels;
  end;

  TocvCannyOperation = class(TocvCustomImageOperation)
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Threshold1: Double index 0 Read GetFloatParam write SetFloatParam;
    property Threshold2: Double index 1 Read GetFloatParam write SetFloatParam;
    property ApertureSize: Integer index 0 Read GetIntParam write SetIntParam;
  end;

  TocvErodeDilateMode = (SHAPE_RECT, SHAPE_CROSS, SHAPE_ELLIPSE, SHAPE_CUSTOM);

  TocvCustomErodeDilateOperation = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FMorphOp: TocvErodeDilateMode;
    procedure SetMorphOp(const Value: TocvErodeDilateMode);
  protected
  public
    constructor Create(AOwner: TPersistent); override;
  published
    property Radius: Integer index 0 Read GetIntParam write SetIntParam;
    property Iterations: Integer index 1 Read GetIntParam write SetIntParam;
    property MorphOp: TocvErodeDilateMode read FMorphOp write SetMorphOp default SHAPE_RECT;
  end;

  TocvErodeOperation = class(TocvCustomErodeDilateOperation)
  public
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  end;

  TocvDilateOperation = class(TocvCustomErodeDilateOperation)
  public
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  end;

  TocvLaplaceOperation = class(TocvCustomImageOperation)
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Aperture: Integer index 0 Read GetIntParam write SetIntParam;
  end;

  TocvScalar = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FCvScalar: TCvScalar;
    function GetScalar(const index: Integer): Double;
    procedure SetScalar(const index: Integer; const Value: Double);
  public
    property CvScalar: TCvScalar read FCvScalar write FCvScalar;
    property Scalar[const Index: Integer]: Double read GetScalar write SetScalar;
  published
    property Val0: Double index 0 read GetScalar write SetScalar;
    property Val1: Double index 1 read GetScalar write SetScalar;
    property Val2: Double index 2 read GetScalar write SetScalar;
    property Val3: Double index 3 read GetScalar write SetScalar;
  end;

  TOnGetImage = procedure(Sender: TObject; Var Source2Image: IocvImage) of object;

  TocvCommonMathOperation = class(TocvCustomImageOperation, IocvDataReceiver)
  private
    FocvVideoSource: IocvDataSource;
    FSrource2Image: IocvImage;
    FOnGetImage: TOnGetImage;
    FOnGetMaskImage: TOnGetImage;
    FTransformInterpolation: TocvInterpolationMethod;
    procedure SetVideoSource_Source2(const Value: IocvDataSource);
    procedure DoGetSourceImage(Var Image: IocvImage);
    procedure DoGetMaskImage(Var Image: IocvImage);
    procedure GetImagesForTransorm(out Source1: IocvImage; out Source2, Mask: IocvImage);
    // --------------------------------------
    property VideoSource: IocvDataSource Read FocvVideoSource write SetVideoSource_Source2;
    property OnGetSourceImage: TOnGetImage read FOnGetImage write FOnGetImage;
    property OnGetMaskImage: TOnGetImage read FOnGetMaskImage write FOnGetMaskImage;
    property TransformInterpolation: TocvInterpolationMethod read FTransformInterpolation write FTransformInterpolation default INTER_CUBIC;
  public
    constructor Create(AOwner: TPersistent); override;
  protected
    procedure TakeImage(const IplImage: IocvImage);
    procedure SetVideoSource(const Value: TObject);
  published
  end;

  TocvAddWeightedOperation = class(TocvCommonMathOperation)
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property VideoSource;
    property OnGetSourceImage;
    property TransformInterpolation;

    property Alpha: Double index 0 Read GetFloatParam write SetFloatParam;
    property Beta: Double index 1 Read GetFloatParam write SetFloatParam;
    property Gamma: Double index 2 Read GetFloatParam write SetFloatParam;
  end;

  TocvLogicType = (ioAdd, ioSub, ioAnd, ioOr, ioXor);

  TocvLogicOperation = class(TocvCommonMathOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FOperation: TocvLogicType;
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property VideoSource;
    property OnGetSourceImage;
    property OnGetMaskImage;
    property TransformInterpolation;

    property Operation: TocvLogicType read FOperation write FOperation default ioAdd;
  end;

  TocvLogicSType = (ioAddS, ioSubS, ioSubRS, ioXorS);

  TocvLogicSOperation = class(TocvCommonMathOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FOperation: TocvLogicSType;
    FValue: TocvScalar;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property OnGetMaskImage;
    property TransformInterpolation;

    property Operation: TocvLogicSType read FOperation write FOperation default ioAddS;
    property Value: TocvScalar read FValue write FValue;
  end;

  TocvSobelOperation = class(TocvCustomImageOperation)
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property XOrder: Integer index 0 Read GetIntParam write SetIntParam;
    property YOrder: Integer index 1 Read GetIntParam write SetIntParam;
    property Aperture: Integer index 2 Read GetIntParam write SetIntParam;
  end;

  TocvSmoothOperations = (BLUR_NO_SCALE, BLUR, GAUSSIAN, MEDIAN, BILATERAL);

  TocvSmoothOperation = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FSmoothOperation: TocvSmoothOperations;
    procedure SetSmoothOperation(const Value: TocvSmoothOperations);
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property sigma1: Double index 0 Read GetFloatParam write SetFloatParam;
    property sigma2: Double index 1 Read GetFloatParam write SetFloatParam;
    property size1: Integer index 0 Read GetIntParam write SetIntParam;
    property size2: Integer index 1 Read GetIntParam write SetIntParam;
    property SmoothType: TocvSmoothOperations read FSmoothOperation write SetSmoothOperation default GAUSSIAN;
  end;

  TocvThresholdType = (THRESH_BINARY, THRESH_BINARY_INV, THRESH_TRUNC, THRESH_TOZERO, THRESH_TOZERO_INV, THRESH_MASK, THRESH_OTSU);

  TocvCustomThresholdOperation = class(TocvCustomImageOperation)
  private
    function GetThresholdType: TocvThresholdType;
    procedure SetThresholdType(const Value: TocvThresholdType);
  public
    constructor Create(AOwner: TPersistent); override;
  published
    property MaxValue: Double index 0 Read GetFloatParam write SetFloatParam; // default 250;
    property ThresholdType: TocvThresholdType read GetThresholdType write SetThresholdType default THRESH_BINARY; // index 0
  end;

  TocvThresholdOperation = class(TocvCustomThresholdOperation)
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Threshold: Double index 1 Read GetFloatParam write SetFloatParam; // default 50;
  end;

  TocvAdaptiveThresholdType = (ADAPTIVE_THRESH_MEAN_C, ADAPTIVE_THRESH_GAUSSIAN_C);

  TocvAdaptiveThresholdOperation = class(TocvCustomThresholdOperation)
  private
    function GetAdaptiveThresholdType: TocvAdaptiveThresholdType;
    procedure SetAdaptiveThresholdType(const Value: TocvAdaptiveThresholdType);
  public
    constructor Create(AOwner: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property AdaptiveThresholdType: TocvAdaptiveThresholdType read GetAdaptiveThresholdType write SetAdaptiveThresholdType
      default ADAPTIVE_THRESH_MEAN_C; // index 1
    property BlockSize: Integer index 2 Read GetIntParam write SetIntParam; // 3
    property Param: Double index 1 Read GetFloatParam write SetFloatParam; // 5;
  end;

  TocvPoint2D32i = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FSize: TcvSize;
  public
    constructor Create(const AX: Integer = 0; const AY: Integer = 0);
    property Size: TcvSize read FSize write FSize;
  published
    property X: Integer read FSize.Width write FSize.Width;
    property Y: Integer read FSize.height write FSize.height;
  end;

  TocvPoint2D32f = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FX, FY: Single;
  public
    constructor Create(const AX: Single = 0; const AY: Single = 0);
  published
    property X: Single read FX write FX;
    property Y: Single read FY write FY;
  end;

  TocvRect32i = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FRight: Integer;
    FBottom: Integer;
    FTop: Integer;
    FLeft: Integer;
    function GetHeight: Integer;
    function GetOcvRect: TocvRect;
    function GetWidth: Integer;
    procedure SetHeight(const Value: Integer);
    procedure SetOcvRect(const Value: TocvRect);
    procedure SetWidth(const Value: Integer);
    function GetCvRect: TCvRect;
    procedure SetCvRect(const Value: TCvRect);
  public
  published
    property Left: Integer read FLeft write FLeft;
    property Top: Integer read FTop write FTop;
    property Bottom: Integer read FBottom write FBottom;
    property Right: Integer read FRight write FRight;
    property Width: Integer read GetWidth write SetWidth;
    property height: Integer read GetHeight write SetHeight;
    property ocvRect: TocvRect read GetOcvRect write SetOcvRect;
    property cvRect: TCvRect read GetCvRect write SetCvRect;
  end;

  TocvCropOperation = class(TocvCustomImageOperation)
  private
    FCropRect: TocvRect32i;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property CropRect: TocvRect32i read FCropRect write FCropRect;
  end;

  TocvInRangeSOperation = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FLower: TocvScalar;
    FUpper: TocvScalar;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Lower: TocvScalar read FLower write FLower;
    property Upper: TocvScalar read FUpper write FUpper;
  end;

  // TocvLogicType =
  // (
  // ioAdd,
  // ioAddS,
  // ioSub,
  // ioSubS,
  // ioSubRS,
  // ioMul,
  // ioDiv,
  // ioScaleAdd,
  // ioAXPY
  // );
  //
  // TocvMathLogicOperation = class(TocvCustomImageOperation)
  // public
  // constructor Create(AOwner: TPersistent); override;
  // destructor Destroy; override;
  // function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  // published
  // end;

  TocvInterpolationWarpingFlag = (WARP_FILL_OUTLIERS, WARP_INVERSE_MAP);
  TocvInterpolationWarpingFlagSet = set of TocvInterpolationWarpingFlag;

  TocvRotateOperation = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FCenter: TocvPoint2D32f;
    FMethod: TocvInterpolationMethod;
    FWarpingFlag: TocvInterpolationWarpingFlagSet;
    FFillColor: TColor;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Angle: Integer index 0 Read GetIntParam write SetIntParam;
    property RotateAroundCenter: Boolean index 0 Read GetBoolParam write SetBoolParam;
    property CustomCenter: TocvPoint2D32f Read FCenter write FCenter;
    property Method: TocvInterpolationMethod read FMethod write FMethod default INTER_LINEAR;
    property WarpingFlag: TocvInterpolationWarpingFlagSet read FWarpingFlag write FWarpingFlag default [WARP_FILL_OUTLIERS];
    property Scale: Double index 0 Read GetFloatParam write SetFloatParam;
    property FillColor: TColor read FFillColor write FFillColor default clBlack;
  end;

  TocvQuad = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  public type
    TOcvQuadPoints = array [0 .. 3] of TocvPoint2D32f;
    TCvPoint2D32fArray = array [0 .. 3] of TCvPoint2D32f;
  protected
    FPoints: TOcvQuadPoints;
    function ShaIsConvexQuadrangle: Boolean;
  private
    function GetPoints(const index: Integer): TocvPoint2D32f;
    procedure SetPoints(const index: Integer; const Value: TocvPoint2D32f);
    function GetCvQuad: TCvPoint2D32fArray;
  public
    constructor Create;
    destructor Destroy; override;
    property Points[const Index: Integer]: TocvPoint2D32f read GetPoints write SetPoints;
    property Quad: TOcvQuadPoints read FPoints;
    property cvQuad: TCvPoint2D32fArray read GetCvQuad;
  published
    property TopLeft: TocvPoint2D32f index 0 read GetPoints write SetPoints;
    property TopRight: TocvPoint2D32f index 1 read GetPoints write SetPoints;
    property BottomLeft: TocvPoint2D32f index 2 read GetPoints write SetPoints;
    property BottomRight: TocvPoint2D32f index 3 read GetPoints write SetPoints;
  end;

  TocvWarpPerspective = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FSourceQuad: TocvQuad;
    FDestQuad: TocvQuad;
    FMethod: TocvInterpolationMethod;
    FWarpingFlag: TocvInterpolationWarpingFlagSet;
    FFillColor: TColor;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property SourceQuad: TocvQuad read FSourceQuad write FSourceQuad;
    property DestQuad: TocvQuad read FDestQuad write FDestQuad;
    property Method: TocvInterpolationMethod read FMethod write FMethod default INTER_LINEAR;
    property WarpingFlag: TocvInterpolationWarpingFlagSet read FWarpingFlag write FWarpingFlag default [WARP_FILL_OUTLIERS];
    property FullSourceImage: Boolean index 0 Read GetBoolParam write SetBoolParam;
    property FillColor: TColor Read FFillColor write FFillColor;
  end;

  TocvAbsDiff = class(TocvCustomImageOperation)
  protected
    FPrevFrame: IocvImage;
  public
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  end;

  TocvDraw = class(TPersistent)
  protected
    FColor: TColor;
    procedure AssignTo(Dest: TPersistent); override;
    function GetOwner: TPersistent; override;
  private
    FOwner: TPersistent;
    FOffset: TocvPoint2D32i;
    FEnabled: Boolean;
    FThickness: Integer;
    FLineType: TocvLineType;
    FShift: Integer;
    function GetCvLineType: Integer;
    function GetCvColor: TCvScalar;
  public
    constructor Create(AOwner: TPersistent);
    destructor Destroy; override;
    property Color: TColor read FColor write FColor default clGreen;
    property Shift: Integer read FShift write FShift default 0;
    property cvLineType: Integer read GetCvLineType;
    property cvColor: TCvScalar read GetCvColor;
  published
    property Enabled: Boolean read FEnabled write FEnabled default True;
    property Thickness: Integer read FThickness write FThickness default 2;
    property LineType: TocvLineType read FLineType write FLineType default LT_AA;
    property Offset: TocvPoint2D32i read FOffset write FOffset;
  end;

  TocvDrawColor = class(TocvDraw)
  published
    property Color;
  end;

  TocvMatchTemplateMethod = (TM_SQDIFF, TM_SQDIFF_NORMED, TM_CCORR, TM_CCORR_NORMED, TM_CCOEFF, TM_CCOEFF_NORMED);

  TocvMatchTemplate = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FMethod: TocvMatchTemplateMethod;
    FIPLTemplate: pIplImage;
    FTemplate: TPicture;
    FOnMathTemplateRect: TOnOcvRect;
    FDrawRect: TocvDraw;
    procedure SetFIPLTemplate(const Value: pIplImage);
    function GetIPLTemplate: pIplImage;
    procedure TemplateOnChange(Sender: TObject);
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
    property IPLTemplate: pIplImage read GetIPLTemplate write SetFIPLTemplate;
  published
    property Method: TocvMatchTemplateMethod read FMethod write FMethod default TM_CCOEFF_NORMED;
    property Template: TPicture Read FTemplate write FTemplate;
    property DrawRect: TocvDraw read FDrawRect write FDrawRect;
    property OnMathTemplateRect: TOnOcvRect read FOnMathTemplateRect write FOnMathTemplateRect;
  end;

  TocvMotionDetectCalcRectType = (mdBoundingRect, mdMinAreaRect);

  TocvContourApproximationMethods = (CHAIN_CODE, CHAIN_APPROX_NONE, CHAIN_APPROX_SIMPLE, CHAIN_APPROX_TC89_L1, CHAIN_APPROX_TC89_KCOS,
    LINK_RUNS);

  TocvDrawMotionRect = TocvDrawColor;

  TocvMotionDetect = class(TocvCustomImageOperationWithNestedOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
    function GetPropertiesClass: TocvImageOperationClass; override;
  private
    FCalcRectType: TocvMotionDetectCalcRectType;
    FPrevFrame: IocvImage;
    FSmoothOperation: TocvSmoothOperations;
    FDrawMotionRect: TocvDrawMotionRect;
    FOnMotion: TOnOcvRects;
    FContours: pCvSeq;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
    property MotionRects: pCvSeq Read FContours;
  published
    property RemoveSmallObject: Boolean index 0 Read GetBoolParam write SetBoolParam;
    property MinObjectSize: Integer index 0 Read GetIntParam write SetIntParam;
    property CalcRectType: TocvMotionDetectCalcRectType read FCalcRectType write FCalcRectType default mdBoundingRect;
    property Smooth: TocvSmoothOperations read FSmoothOperation write FSmoothOperation default BLUR;
    property Threshold: TocvCustomImageOperation read GetProperties write SetProperties;
    property DrawMotionRect: TocvDrawMotionRect read FDrawMotionRect Write FDrawMotionRect;
    property OnMotion: TOnOcvRects read FOnMotion write FOnMotion;
    property NotifyOnlyWhenFound: Boolean index 1 Read GetBoolParam write SetBoolParam;
  end;

  TocvHoughTransform = (HOUGH_STANDARD, HOUGH_PROBABILISTIC, HOUGH_MULTI_SCALE, HOUGH_GRADIENT);

  TocvDrawHoughCircles = TocvDrawColor;

  TocvHoughCirclesSmooth = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FSmoothOperation: TocvSmoothOperations;
    Fsigma1: Double;
    Fsigma2: Double;
    Fsize1: Integer;
    Fsize2: Integer;
    FEnabled: Boolean;
  public
    constructor Create;
  published
    property sigma1: Double Read Fsigma1 write Fsigma1;
    property sigma2: Double Read Fsigma2 write Fsigma2;
    property size1: Integer Read Fsize1 write Fsize1 default 0;
    property size2: Integer Read Fsize2 write Fsize2 default 0;
    property SmoothType: TocvSmoothOperations read FSmoothOperation write FSmoothOperation default GAUSSIAN;
    property Enabled: Boolean read FEnabled write FEnabled default True;
  end;

  TocvHoughCircles = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FHoughTransform: TocvHoughTransform;
    FDrawCircle: TocvDrawHoughCircles;
    FOnCircles: TOnOcvCircles;
    FSmooth: TocvHoughCirclesSmooth;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Method: TocvHoughTransform read FHoughTransform write FHoughTransform default HOUGH_GRADIENT;
    property InverseRatio: Double index 0 Read GetFloatParam write SetFloatParam;
    property MinDist: Double index 1 Read GetFloatParam write SetFloatParam;
    property Param1: Double index 2 Read GetFloatParam write SetFloatParam;
    property Param2: Double index 3 Read GetFloatParam write SetFloatParam;
    property MinRadius: Integer index 0 Read GetIntParam write SetIntParam;
    property MaxRadius: Integer index 1 Read GetIntParam write SetIntParam;
    property DrawCircle: TocvDrawHoughCircles read FDrawCircle write FDrawCircle;
    property OnCircles: TOnOcvCircles read FOnCircles write FOnCircles;
    property NotifyOnlyWhenFound: Boolean index 0 Read GetBoolParam write SetBoolParam;
    property Smooth: TocvHoughCirclesSmooth read FSmooth write FSmooth;
  end;

  TocvHoughLinesCanny = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FThreshold1: Double;
    FThreshold2: Double;
    FApertureSize: Integer;
  public
    constructor Create;
  published
    property Threshold1: Double read FThreshold1 write FThreshold1;
    property Threshold2: Double read FThreshold2 write FThreshold2;
    property ApertureSize: Integer read FApertureSize write FApertureSize default 3;
  end;

  TocvDrawHoughLines = TocvDrawColor;

  TocvHoughLines = class(TocvCustomImageOperation)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FHoughTransform: TocvHoughTransform;
    FCanny: TocvHoughLinesCanny;
    FOnLines: TOnOcvLines;
    FDrawLines: TocvDrawHoughLines;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
  published
    property Method: TocvHoughTransform read FHoughTransform write FHoughTransform default HOUGH_PROBABILISTIC;
    property Rho: Double index 0 Read GetFloatParam write SetFloatParam;
    property Theta: Double index 1 Read GetFloatParam write SetFloatParam;
    property Param1: Double index 2 Read GetFloatParam write SetFloatParam;
    property Param2: Double index 3 Read GetFloatParam write SetFloatParam;
    property Threshold: Integer index 0 Read GetIntParam write SetIntParam;
    property Canny: TocvHoughLinesCanny Read FCanny write FCanny;
    property OnLines: TOnOcvLines read FOnLines write FOnLines;
    property DrawLines: TocvDrawHoughLines read FDrawLines write FDrawLines;
    property NotifyOnlyWhenFound: Boolean index 0 Read GetBoolParam write SetBoolParam;
  end;

  TocvHaarCascadeDraw = class(TocvDraw)
  published
    property Color;
    property Shift;
  end;

  TocvHaarCascade = class(TocvCustomImageOperation)
  private
    FHaarCascade: TocvHaarCascadeType;
    FLockFrontalFaceChange: TCriticalSection;
    FCascade: pCvHaarClassifierCascade;
    FMinSize: TocvPoint2D32i;
    FMaxSize: TocvPoint2D32i;
    FDrawHaarCascade: TocvHaarCascadeDraw;
    FCascadeFlags: TocvHaarCascadeFlagSet;
    FOnHaarCascade: TOnOcvHaarCascade;
    FCustomHaarCascade: TFileName;
    FHaarRects: TocvRects;
    procedure SetHaarCascade(const Value: TocvHaarCascadeType);
    procedure ReleaseCascade;
    procedure SetCustomHaarCascade(const Value: TFileName);
    procedure DoLoadHaarCascade(const FileName: String);
  protected
    FPrevFrame: IocvImage;
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
    property HaarRects: TocvRects read FHaarRects;
  published
    property CustomHaarCascade: TFileName read FCustomHaarCascade write SetCustomHaarCascade;
    property HaarCascade: TocvHaarCascadeType read FHaarCascade write SetHaarCascade default hcFrontalFaceAlt;
    property Equalize: Boolean index 0 Read GetBoolParam write SetBoolParam;
    property Scale: Double index 0 Read GetFloatParam write SetFloatParam; // 1.3
    property MinNeighbors: Integer index 0 Read GetIntParam write SetIntParam; // 3
    property MinSize: TocvPoint2D32i read FMinSize write FMinSize; // CV_DEFAULT(cvSize(0,0))
    property MaxSize: TocvPoint2D32i read FMaxSize write FMaxSize; // {CV_DEFAULT(cvSize(0,0))}
    property DrawHaarCascade: TocvHaarCascadeDraw read FDrawHaarCascade write FDrawHaarCascade;
    property CascadeFlags: TocvHaarCascadeFlagSet read FCascadeFlags write FCascadeFlags default [];
    property OnHaarCascade: TOnOcvHaarCascade read FOnHaarCascade write FOnHaarCascade;
    property NotifyOnlyWhenFound: Boolean index 1 Read GetBoolParam write SetBoolParam;
  end;

  TocvContourDraw = class(TocvDraw)
  protected
    procedure AssignTo(Dest: TPersistent); override;
  private
    FHoleColor: TColor;
    FMaxLevel: Integer;
  public
    constructor Create(AOwner: TPersistent);
  published
    property ExternalColor: TColor read FColor write FColor default clGreen;
    property HoleColor: TColor read FHoleColor write FHoleColor default clRed;
    property MaxLevel: Integer read FMaxLevel write FMaxLevel default 2;
  end;

  TocvContourRetrievalModes = (RETR_EXTERNAL, RETR_LIST, RETR_CCOMP, RETR_TREE, RETR_FLOODFILL);

  TocvContourApprox = class(TPersistent)
  protected
    procedure AssignTo(Dest: TPersistent); override;
    function GetOwner: TPersistent; override;
  private
    FOwner: TPersistent;
    FEnabled: Boolean;
    FRecursive: Boolean;
    FEps: Double;
  public
    constructor Create(AOwner: TPersistent);
  published
    property Enabled: Boolean read FEnabled write FEnabled default True;
    property Eps: Double read FEps write FEps;
    property Recursive: Boolean read FRecursive write FRecursive default True;
  end;

  TocvContoursOperation = class(TocvCustomImageOperationWithNestedOperation)
  private
    FRetrievalMode: TocvContourRetrievalModes;
    FApproximationMethod: TocvContourApproximationMethods;
    FOffset: TocvPoint2D32i;
    FContourDraw: TocvContourDraw;
    FApprox: TocvContourApprox;
    FOnContour: TOnOcvContour;
    FContours: pCvSeq;
    procedure DoNotifyContours(const Image: IocvImage; const ContourCount: Integer; const Contours: pCvSeq);
  public
    constructor Create(AOwner: TPersistent); override;
    destructor Destroy; override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; override;
    property Contours: pCvSeq read FContours;
  published
    property Preprocessing: TocvCustomImageOperation read GetProperties write SetProperties;
    property RetrievalMode: TocvContourRetrievalModes read FRetrievalMode write FRetrievalMode default RETR_LIST;
    property ApproximationMethod: TocvContourApproximationMethods read FApproximationMethod write FApproximationMethod
      default CHAIN_APPROX_SIMPLE;
    property Offset: TocvPoint2D32i read FOffset write FOffset;
    property MinArea: Integer index 0 Read GetIntParam write SetIntParam;
    property ContourDraw: TocvContourDraw read FContourDraw write FContourDraw;
    property ApproxPoly: TocvContourApprox read FApprox write FApprox;
    property OnContour: TOnOcvContour read FOnContour write FOnContour;
  end;

  TocvImageOperationCollectionItem = class(TCollectionItem, IocvEditorPropertiesContainer)
  private
    CS: TCriticalSection;
    FOperation: TocvCustomImageOperation;
    FOperationClass: TocvImageOperationClass;
    FOwner: TCollection;
    FOnAfterTransform: TOnOcvAfterTransform;
    FOnBeforeTransform: TOnOcvBeforeTransform;
    function LockTransform: Boolean;
    procedure UnlockTransform;
    procedure CreateProperties;
    procedure DestroyProperties;
    procedure RecreateProperties;
    function GetPropertiesClassName: string;
    procedure SetProperties(const Value: TocvCustomImageOperation);
    procedure SetPropertiesClass(Value: TocvImageOperationClass);
    procedure SetPropertiesClassName(const Value: string);
  protected
    function GetProperties: TocvCustomImageOperation;
    function GetPropertiesClass: TocvImageOperationClass;
    function GetDisplayName: string; override;
    function GetOwner: TPersistent; override;
    { IInterface }
    function QueryInterface(const IID: TGUID; out Obj): HResult; stdcall;
    function _AddRef: Integer; stdcall;
    function _Release: Integer; stdcall;
  public
    constructor Create(Collection: TCollection); override;
    destructor Destroy; override;
    function GetNamePath: string; override;
    procedure Assign(Source: TPersistent); override;
    function DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean; virtual;
    property OperationClass: TocvImageOperationClass read GetPropertiesClass write SetPropertiesClass;
  published
    property OperationClassName: string read GetPropertiesClassName write SetPropertiesClassName;
    property Operation: TocvCustomImageOperation read GetProperties write SetProperties;
    property OnAfterTransform: TOnOcvAfterTransform read FOnAfterTransform write FOnAfterTransform;
    property OnBeforeTransform: TOnOcvBeforeTransform read FOnBeforeTransform write FOnBeforeTransform;
  end;

  TocvImageOperationCollection = class(TOwnedCollection)
  protected
    FOnBeforeEachOperation: TOnOcvNotifyCollectionItem;
    FOnAfterEachOperation: TOnOcvNotifyCollectionItem;
  public
    function Transform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
  end;

  TocvImageOperation = class(TocvDataSourceAndReceiver, IocvEditorPropertiesContainer)
  private
    CS: TCriticalSection;
    FOperation: TocvCustomImageOperation;
    FOperationClass: TocvImageOperationClass;
    FOperations: TocvImageOperationCollection;
    FUseCollection: Boolean;
    FOnAfterEachOperation: TOnOcvNotifyCollectionItem;
    FOnBeforeEachOperation: TOnOcvNotifyCollectionItem;
    function LockTransform: Boolean;
    procedure UnlockTransform;
    procedure CreateProperties;
    procedure DestroyProperties;
    procedure RecreateProperties;
    function GetPropertiesClassName: string;
    procedure SetProperties(const Value: TocvCustomImageOperation);
    procedure SetPropertiesClass(Value: TocvImageOperationClass);
    procedure SetPropertiesClassName(const Value: string);
    procedure SetUseCollection(const Value: Boolean);
    procedure SetOnAfterEachOperation(const Value: TOnOcvNotifyCollectionItem);
    procedure SetOnBeforeEachOperation(const Value: TOnOcvNotifyCollectionItem);
  protected
    function GetProperties: TocvCustomImageOperation;
    function GetPropertiesClass: TocvImageOperationClass;
  public
    constructor Create(AOwner: TComponent); override;
    destructor Destroy; override;
    procedure TakeImage(const IplImage: IocvImage); override;
    property OperationClass: TocvImageOperationClass read GetPropertiesClass write SetPropertiesClass;
  published
    property OperationClassName: string read GetPropertiesClassName write SetPropertiesClassName;
    property Operation: TocvCustomImageOperation read GetProperties write SetProperties;
    property Operations: TocvImageOperationCollection Read FOperations write FOperations;
    property OperationsEnabled: Boolean read FUseCollection write SetUseCollection default True;
    property OnBeforeEachOperation: TOnOcvNotifyCollectionItem read FOnBeforeEachOperation write SetOnBeforeEachOperation;
    property OnAfterEachOperation: TOnOcvNotifyCollectionItem read FOnAfterEachOperation write SetOnAfterEachOperation;
  end;

  TRegisteredImageOperations = class(TStringList)
  public
    function FindByClassName(const ClassName: String): TocvImageOperationClass;
    function FindByName(const Name: String): TocvImageOperationClass;
    function GetNameByClass(const IOClass: TClass): String;
    procedure RegisterIOClass(const IOClass: TClass; const ClassName: String);
  end;

function GetRegisteredImageOperations: TRegisteredImageOperations;

implementation

uses
  ocv.core_c,
  ocv.imgproc_c,
  ocv.cvutils,
  System.Math;

// {$IFNDEF haarcascadeinc}
// {$DEFINE haarcascadeinc}
//
// Type
// TocvHaarCascadeRecord = record
// Name: String;
// FileName: String;
// end;
// ///
// // Run utils\CompressHaar\uCompressHaar.dpr
// // Add to serarch path \Delphi-OpenCV\resource\facedetectxml\
// ///
// {$R haarcascade.rc haarcascade.res}
// {$R haarcascade.res}
// {$I haarcascade.inc}
// {$ENDIF}

type
  TPersistentAccessProtected = class(TPersistent);

Var
  _RegisteredImageOperations: TRegisteredImageOperations = nil;

function GetRegisteredImageOperations: TRegisteredImageOperations;
begin
  if not Assigned(_RegisteredImageOperations) then
    _RegisteredImageOperations := TRegisteredImageOperations.Create;
  Result := _RegisteredImageOperations;
end;

{ TocvImageOperation }

procedure TocvImageOperation.SetOnAfterEachOperation(const Value: TOnOcvNotifyCollectionItem);
begin
  FOnAfterEachOperation := Value;
  Operations.FOnAfterEachOperation := Value;
end;

procedure TocvImageOperation.SetOnBeforeEachOperation(const Value: TOnOcvNotifyCollectionItem);
begin
  FOnBeforeEachOperation := Value;
  Operations.FOnBeforeEachOperation := Value;
end;

procedure TocvImageOperation.SetProperties(const Value: TocvCustomImageOperation);
begin
  if (FOperation <> nil) and (Value <> nil) then
    FOperation.Assign(Value);
end;

procedure TocvImageOperation.SetPropertiesClass(Value: TocvImageOperationClass);
begin
  if FOperationClass <> Value then
  begin
    FOperationClass := Value;
    RecreateProperties;
  end;
end;

procedure TocvImageOperation.CreateProperties;
begin
  if FOperationClass <> nil then
    FOperation := FOperationClass.Create(Self);
end;

procedure TocvImageOperation.DestroyProperties;
begin
  FreeAndNil(FOperation);
end;

procedure TocvImageOperation.RecreateProperties;
begin
  DestroyProperties;
  CreateProperties;
end;

procedure TocvImageOperation.SetPropertiesClassName(const Value: string);
begin
  OperationClass := TocvImageOperationClass(GetRegisteredImageOperations.FindByClassName(Value));
end;

procedure TocvImageOperation.SetUseCollection(const Value: Boolean);
begin
  if FUseCollection <> Value then
  begin
    CS.Enter;
    try
      FUseCollection := Value;
    finally
      CS.Leave;
    end;
  end;
end;

constructor TocvImageOperation.Create(AOwner: TComponent);
begin
  inherited;
  CS := TCriticalSection.Create;
  FOperations := TocvImageOperationCollection.Create(Self, TocvImageOperationCollectionItem);
  FUseCollection := True;
end;

destructor TocvImageOperation.Destroy;
begin
  if LockTransform then
    if Assigned(FOperation) then
      FreeAndNil(FOperation);
  FOperations.Free;
  CS.Free;
  inherited;
end;

function TocvImageOperation.GetProperties: TocvCustomImageOperation;
begin
  if not Assigned(FOperation) then
    FOperation := TocvNoneOperation.Create(Self);
  Result := FOperation;
end;

function TocvImageOperation.GetPropertiesClass: TocvImageOperationClass;
begin
  Result := TocvImageOperationClass(Operation.ClassType);
end;

function TocvImageOperation.GetPropertiesClassName: string;
begin
  Result := Operation.ClassName;
end;

function TocvImageOperation.LockTransform: Boolean;
begin
  Result := CS.TryEnter;
end;

procedure TocvImageOperation.TakeImage(const IplImage: IocvImage);
var
  Destanation: IocvImage;
  ContinueTransform: Boolean;
begin
  if LockTransform then
    try
      if (OperationsEnabled and (Operations.Count > 0) and Operations.Transform(IplImage, Destanation)) then
        NotifyReceiver(Destanation)
      else
      begin
        ContinueTransform := True;
        if Assigned(OnBeforeEachOperation) then
          OnBeforeEachOperation(nil, Operation, nil, IplImage, ContinueTransform);
        if not ContinueTransform then
          NotifyReceiver(IplImage)
        else if Operation.Transform(IplImage.Clone, Destanation) then
        begin
          if Assigned(OnAfterEachOperation) then
            OnAfterEachOperation(nil, Operation, nil, Destanation, ContinueTransform);
          NotifyReceiver(Destanation);
        end
        else
          NotifyReceiver(IplImage);
      end;
    finally
      Destanation := nil;
      UnlockTransform;
    end;
end;

procedure TocvImageOperation.UnlockTransform;
begin
  CS.Leave;
end;

{ TocvImageOperationCanny }

constructor TocvCannyOperation.Create { (AOwner: TPersistent) };
begin
  inherited;
  Threshold1 := 10;
  Threshold2 := 100;
  ApertureSize := 3;
end;

function TocvCannyOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Destanation := TocvImage.Create(cvCreateImage(cvGetSize(Source.IpImage), IPL_DEPTH_8U, 1));
  cvCanny(Source.GrayImage.IpImage, Destanation.IpImage, Threshold1, Threshold2, ApertureSize);
  Result := True;
end;

{ TocvImageOperationGrayScale }

function TocvGrayScaleOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Destanation := Source.GrayImage;
  Result := True;
end;

{ TocvImageOperationNone }

function TocvNoneOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Destanation := Source;
  Result := True;
end;

{ TCustomOpenCVImgOperation }

procedure TocvCustomImageOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvCustomImageOperation then
  begin
    FFloatParams := (Dest as TocvCustomImageOperation).FFloatParams;
    FIntParams := (Dest as TocvCustomImageOperation).FIntParams;
    FBoolParams := (Dest as TocvCustomImageOperation).FBoolParams;
  end;
end;

constructor TocvCustomImageOperation.Create(AOwner: TPersistent);
begin
  if AOwner is TComponent then
    inherited Create(AOwner as TComponent)
  else
    inherited Create(nil);
  SetSubComponent(True);

  FOwner := AOwner;
  FCriticalSection := TCriticalSection.Create;
end;

destructor TocvCustomImageOperation.Destroy;
begin
  FCriticalSection.Free;
  inherited;
end;

function TocvCustomImageOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Result := False;
end;

function TocvCustomImageOperation.GetBoolParam(const index: Integer): Boolean;
begin
  if (index >= 0) and (index < Length(FBoolParams)) then
    Result := FBoolParams[index]
  else
    Result := False;
end;

function TocvCustomImageOperation.GetFloatParam(const index: Integer): Double;
begin
  if (index >= 0) and (index < Length(FFloatParams)) then
    Result := FFloatParams[index]
  else
    Result := 0;
end;

function TocvCustomImageOperation.GetIntParam(const index: Integer): Integer;
begin
  if (index >= 0) and (index < Length(FIntParams)) then
    Result := FIntParams[index]
  else
    Result := 0;
end;

function TocvCustomImageOperation.GetNamePath: string;
var
  S: string;
  lOwner: TPersistent;
begin
  Result := inherited GetNamePath;
  lOwner := GetOwner;
  if
  { } (lOwner <> nil) and
  { } (
    { } (csSubComponent in TComponent(lOwner).ComponentStyle) or
    { } (TPersistentAccessProtected(lOwner).GetOwner <> nil)
    { } ) then
  begin
    S := lOwner.GetNamePath;
    if S <> '' then
      Result := S + '.' + Result;
  end;
end;

function TocvCustomImageOperation.GetOwner: TPersistent;
begin
  Result := FOwner;
end;

function TocvCustomImageOperation.LockTransform: Boolean;
begin
  Result := FCriticalSection.TryEnter;
end;

procedure TocvCustomImageOperation.SetBoolParam(const index: Integer; const Value: Boolean);
begin
  if (index >= 0) and LockTransform then
    try
      if index > High(FBoolParams) then
        SetLength(FBoolParams, index + 1);
      FBoolParams[index] := Value;
    finally
      UnlockTransform;
    end;
end;

procedure TocvCustomImageOperation.SetFloatParam(const index: Integer; const Value: Double);
begin
  if (index >= 0) and LockTransform then
    try
      if index > High(FFloatParams) then
        SetLength(FFloatParams, index + 1);
      FFloatParams[index] := Value;
    finally
      UnlockTransform;
    end;
end;

procedure TocvCustomImageOperation.SetIntParam(const index: Integer; const Value: Integer);
begin
  if (index >= 0) and LockTransform then
    try
      if index > High(FIntParams) then
        SetLength(FIntParams, index + 1);
      FIntParams[index] := Value;
    finally
      UnlockTransform;
    end;
end;

function TocvCustomImageOperation.Transform(const Source: IocvImage; var Destanation: IocvImage): Boolean;
Var
  ContinueTransform: Boolean;
begin
  Result := LockTransform;
  if Result then
    try
      ContinueTransform := True;
      if Assigned(OnBeforeTransform) then
        OnBeforeTransform(Self, Source, ContinueTransform);
      if ContinueTransform then
        Result := DoTransform(Source.Clone, Destanation)
      else
      begin
        Destanation := Source;
        Result := True;
      end;
      if Result and Assigned(OnAfterTransform) then
        OnAfterTransform(Self, Destanation);
    finally
      UnlockTransform;
    end
  else
    Destanation := Source;
end;

procedure TocvCustomImageOperation.UnlockTransform;
begin
  FCriticalSection.Leave;
end;

{ TocvImageOperationSmooth }
Const
  ocvSmoothOperations: array [TocvSmoothOperations] of Integer = (CV_BLUR_NO_SCALE, CV_BLUR, CV_GAUSSIAN, CV_MEDIAN, CV_BILATERAL);

procedure TocvSmoothOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvSmoothOperation then
    FSmoothOperation := (Dest as TocvSmoothOperation).FSmoothOperation;
end;

constructor TocvSmoothOperation.Create { (AOwner: TPersistent) };
begin
  inherited;
  FSmoothOperation := GAUSSIAN;
  size1 := 3;
  size2 := 3;
  sigma1 := 0;
  sigma2 := 0;
end;

procedure TocvSmoothOperation.SetSmoothOperation(const Value: TocvSmoothOperations);
begin
  if LockTransform then
    try
      FSmoothOperation := Value;
    finally
      UnlockTransform;
    end;
end;

function TocvSmoothOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  Image: pIplImage;
begin
  Image := cvCloneImage(Source.IpImage);
  cvSmooth(Source.IpImage, Image, ocvSmoothOperations[SmoothType], size1, size2, sigma1, sigma2);
  Destanation := TocvImage.Create(Image);
  Result := True;
end;

{ TRegisteredImageOperations }

function TRegisteredImageOperations.FindByClassName(const ClassName: String): TocvImageOperationClass;
Var
  i: Integer;
begin
  Result := nil;
  for i := 0 to Count - 1 do
    if TocvImageOperationClass(Objects[i]).ClassName = ClassName then
      Exit(TocvImageOperationClass(Objects[i]));
end;

function TRegisteredImageOperations.FindByName(const Name: String): TocvImageOperationClass;
Var
  i: Integer;
begin
  i := IndexOf(Name);
  if i <> -1 then
    Result := TocvImageOperationClass(Objects[i])
  else
    Result := Nil;
end;

function TRegisteredImageOperations.GetNameByClass(const IOClass: TClass): String;
Var
  i: Integer;
begin
  Result := '';
  for i := 0 to Count - 1 do
    if Integer(Objects[i]) = Integer(IOClass) then
    begin
      Result := Self[i];
      Break;
    end;
end;

procedure TRegisteredImageOperations.RegisterIOClass(const IOClass: TClass; const ClassName: String);
begin
  AddObject(ClassName, TObject(IOClass));
  RegisterClass(TPersistentClass(IOClass));
end;

{ TocvCustomErodeDilate }

procedure TocvCustomErodeDilateOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvCustomErodeDilateOperation then
    FMorphOp := (Dest as TocvCustomErodeDilateOperation).MorphOp;
end;

constructor TocvCustomErodeDilateOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  Radius := 5;
  Iterations := 5;
  FMorphOp := SHAPE_RECT;
end;

procedure TocvCustomErodeDilateOperation.SetMorphOp(const Value: TocvErodeDilateMode);
begin
  if LockTransform then
    try
      FMorphOp := Value;
    finally
      UnlockTransform;
    end;
end;

const
  EDMorpgOp: array [TocvErodeDilateMode] of Integer = (CV_SHAPE_RECT, CV_SHAPE_CROSS, CV_SHAPE_ELLIPSE, CV_SHAPE_CUSTOM);

  { TocvErode }

function TocvErodeOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  Kern: pIplConvKernel;
begin
  Destanation := TocvImage.Create(cvCloneImage(Source.IpImage));
  Kern := cvCreateStructuringElementEx(Radius * 2 + 1, Radius * 2 + 1, Radius, Radius, EDMorpgOp[FMorphOp]);
  cvErode(Source.IpImage, Destanation.IpImage, Kern, Iterations);
  cvReleaseStructuringElement(Kern);
  Result := True;
end;

{ TocvDilate }

function TocvDilateOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  Kern: pIplConvKernel;
begin
  Destanation := TocvImage.Create(cvCloneImage(Source.IpImage));
  Kern := cvCreateStructuringElementEx(Radius * 2 + 1, Radius * 2 + 1, Radius, Radius, EDMorpgOp[FMorphOp]);
  cvDilate(Source.IpImage, Destanation.IpImage, Kern, Iterations);
  cvReleaseStructuringElement(Kern);
  Result := True;
end;

{ TocvLaplace }

constructor TocvLaplaceOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  Aperture := 3;
end;

function TocvLaplaceOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  TempImg: pIplImage;
begin
  TempImg := cvCreateImage(cvGetSize(Source.IpImage), IPL_DEPTH_16S, Source.IpImage^.nChannels);
  Destanation := TocvImage.Create(cvCreateImage(cvGetSize(Source.IpImage), Source.IpImage^.Depth, Source.IpImage^.nChannels));
  cvLaplace(Source.IpImage, TempImg, Aperture);
  cvConvertScale(TempImg, Destanation.IpImage);
  cvReleaseImage(TempImg);
  Result := True;
end;

{ TocvSobel }

constructor TocvSobelOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  XOrder := 1;
  YOrder := 1;
  Aperture := 3;
end;

function TocvSobelOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  TmpImg: pIplImage;
begin
  TmpImg := cvCreateImage(cvGetSize(Source.IpImage), IPL_DEPTH_16S, Source.IpImage^.nChannels);
  Destanation := TocvImage.Create(cvCreateImage(cvGetSize(Source.IpImage), Source.IpImage^.Depth, Source.IpImage^.nChannels));
  cvSobel(Source.IpImage, TmpImg, XOrder, YOrder, Aperture);
  cvConvertScale(TmpImg, Destanation.IpImage);
  cvReleaseImage(TmpImg);
  Result := True;
end;

{ TocvImageOperationCollectionItem }

procedure TocvImageOperationCollectionItem.Assign(Source: TPersistent);
begin
  if Source is TocvImageOperationCollectionItem then
    Operation.Assign(TocvImageOperationCollectionItem(Source).Operation)
  else
    inherited;
end;

constructor TocvImageOperationCollectionItem.Create(Collection: TCollection);
begin
  inherited;
  FOwner := Collection;
  CS := TCriticalSection.Create;
end;

procedure TocvImageOperationCollectionItem.CreateProperties;
begin
  if FOperationClass <> nil then
  begin
    FOperation := FOperationClass.Create(Self);
    FOperation.SetParentComponent((GetOwner as TOwnedCollection).Owner as TComponent);
  end;
end;

destructor TocvImageOperationCollectionItem.Destroy;
begin
  if Assigned(FOperation) then
    FOperation.Free;
  CS.Free;
  inherited;
end;

procedure TocvImageOperationCollectionItem.DestroyProperties;
begin
  FreeAndNil(FOperation);
end;

function TocvImageOperationCollectionItem.GetDisplayName: string;
begin
  Result := GetRegisteredImageOperations.GetNameByClass(FOperation.ClassType);
end;

function TocvImageOperationCollectionItem.GetNamePath: string;
begin
  Result := inherited GetNamePath + Format('Operations%d', [Index]);
end;

function TocvImageOperationCollectionItem.GetOwner: TPersistent;
begin
  Result := FOwner;
end;

function TocvImageOperationCollectionItem.GetProperties: TocvCustomImageOperation;
begin
  if not Assigned(FOperation) then
    FOperation := TocvNoneOperation.Create(Self);
  Result := FOperation;
end;

function TocvImageOperationCollectionItem.GetPropertiesClass: TocvImageOperationClass;
begin
  Result := TocvImageOperationClass(Operation.ClassType);
end;

function TocvImageOperationCollectionItem.GetPropertiesClassName: string;
begin
  Result := Operation.ClassName;
end;

function TocvImageOperationCollectionItem.LockTransform: Boolean;
begin
  Result := CS.TryEnter;
end;

function TocvImageOperationCollectionItem.QueryInterface(const IID: TGUID; out Obj): HResult;
begin
  if GetInterface(IID, Obj) then
    Result := 0
  else
    Result := E_NOINTERFACE;
end;

procedure TocvImageOperationCollectionItem.RecreateProperties;
begin
  DestroyProperties;
  CreateProperties;
end;

procedure TocvImageOperationCollectionItem.SetProperties(const Value: TocvCustomImageOperation);
begin
  if (FOperation <> nil) and (Value <> nil) then
    FOperation.Assign(Value);
end;

procedure TocvImageOperationCollectionItem.SetPropertiesClass(Value: TocvImageOperationClass);
begin
  if FOperationClass <> Value then
  begin
    FOperationClass := Value;
    RecreateProperties;
  end;
end;

procedure TocvImageOperationCollectionItem.SetPropertiesClassName(const Value: string);
begin
  OperationClass := TocvImageOperationClass(GetRegisteredImageOperations.FindByClassName(Value));
end;

function TocvImageOperationCollectionItem.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  ContinueTransform: Boolean;
begin
  Result := LockTransform;
  if Result then
    try
      ContinueTransform := True;
      if Assigned(OnBeforeTransform) then
        OnBeforeTransform(Self, Source, ContinueTransform);
      Result := ContinueTransform and Operation.DoTransform(Source, Destanation);
      if Result and Assigned(OnAfterTransform) then
        OnAfterTransform(Self, Destanation);
    finally
      UnlockTransform;
    end;
end;

procedure TocvImageOperationCollectionItem.UnlockTransform;
begin
  CS.Leave;
end;

function TocvImageOperationCollectionItem._AddRef: Integer;
begin
  Result := -1;
end;

function TocvImageOperationCollectionItem._Release: Integer;
begin
  Result := -1;
end;

{ TocvThresholdOperation }

Const
  cThreshold: array [TocvThresholdType] of Integer = (CV_THRESH_BINARY, CV_THRESH_BINARY_INV, CV_THRESH_TRUNC, CV_THRESH_TOZERO,
    CV_THRESH_TOZERO_INV, CV_THRESH_MASK, CV_THRESH_OTSU);

constructor TocvThresholdOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  Threshold := 50;
end;

constructor TocvCustomThresholdOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  MaxValue := 250;
  ThresholdType := THRESH_BINARY;
end;

function TocvCustomThresholdOperation.GetThresholdType: TocvThresholdType;
begin
  Result := TocvThresholdType(GetIntParam(0));
end;

procedure TocvCustomThresholdOperation.SetThresholdType(const Value: TocvThresholdType);
begin
  SetIntParam(0, Integer(Value));
end;

function TocvThresholdOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Destanation := Source.GrayImage.Same;
  cvThreshold(Source.GrayImage.IpImage, Destanation.IpImage, Threshold, MaxValue, cThreshold[ThresholdType]);
  Result := True;
end;

{ TocvAdaptiveThresholdOperation }

const
  cAdaptiveThresholdType: array [TocvAdaptiveThresholdType] of Integer = (CV_ADAPTIVE_THRESH_MEAN_C, CV_ADAPTIVE_THRESH_GAUSSIAN_C);

constructor TocvAdaptiveThresholdOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  AdaptiveThresholdType := ADAPTIVE_THRESH_MEAN_C;
  BlockSize := 3;
  Param := 5;
end;

function TocvAdaptiveThresholdOperation.GetAdaptiveThresholdType: TocvAdaptiveThresholdType;
begin
  Result := TocvAdaptiveThresholdType(GetIntParam(1));
end;

procedure TocvAdaptiveThresholdOperation.SetAdaptiveThresholdType(const Value: TocvAdaptiveThresholdType);
begin
  SetIntParam(1, Integer(Value));
end;

function TocvAdaptiveThresholdOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Destanation := TocvImage.Create(cvCreateImage(cvGetSize(Source.IpImage), IPL_DEPTH_8U, 1));
  cvAdaptiveThreshold(Source.GrayImage.IpImage, Destanation.IpImage, MaxValue, cAdaptiveThresholdType[AdaptiveThresholdType],
    cThreshold[ThresholdType], BlockSize, Param);
  Result := True;
end;

{ TocvContoursOperation }

constructor TocvContoursOperation.Create { (AOwner: TComponent) };
begin
  inherited;
  FOffset := TocvPoint2D32i.Create;
  FContourDraw := TocvContourDraw.Create(Self);
  FApprox := TocvContourApprox.Create(Self);
  OperationClass := TocvThresholdOperation;
  With Preprocessing as TocvThresholdOperation do
  begin
    Threshold := 128;
    MaxValue := 255;
    ThresholdType := THRESH_BINARY_INV;
  end;
  RetrievalMode := RETR_LIST;
  ApproximationMethod := CHAIN_APPROX_SIMPLE;
  MinArea := 100;
end;

destructor TocvContoursOperation.Destroy;
begin
  FOffset.Free;
  FContourDraw.Free;
  FApprox.Free;
  inherited;
end;

function TocvContoursOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  th_image: IocvImage;
  storage: pCvMemStorage;
  contoursCont: Integer;
  er, eg, eb: byte;
  hr, hg, hb: byte;
  s_contours: pCvSeq;
  area: Double;
begin
  Result := False;
  FContours := nil;
  th_image := nil;
  storage := cvCreateMemStorage(0);
  try
    Destanation := Source; // .Clone;
    if Preprocessing.Transform(Source, th_image) then
    begin
      contoursCont := cvFindContours(th_image.IpImage, storage, @Contours, SizeOf(TCvContour), Integer(RetrievalMode),
        Integer(ApproximationMethod), cvPoint(Offset.X, Offset.Y));
      if ApproxPoly.Enabled then
        FContours := cvApproxPoly(Contours, SizeOf(TCvContour), storage, CV_POLY_APPROX_DP, ApproxPoly.Eps, Integer(ApproxPoly.Recursive));
      DoNotifyContours(Destanation, contoursCont, Contours);
      if (contoursCont > 0) and ContourDraw.Enabled then
      begin
        GetRGBValue(ContourDraw.ExternalColor, er, eg, eb);
        GetRGBValue(ContourDraw.HoleColor, hr, hg, hb);
        if MinArea > 0 then
        begin
          s_contours := Contours;
          while (s_contours <> nil) do
          begin
            area := cvContourArea(s_contours, CV_WHOLE_SEQ);
            if abs(area) > MinArea then
              cvDrawContours(Destanation.IpImage, s_contours, CV_RGB(er, eg, eb), CV_RGB(hr, hg, hb), ContourDraw.MaxLevel,
                ContourDraw.Thickness, cLineType[ContourDraw.LineType], cvPoint(ContourDraw.Offset.X, ContourDraw.Offset.Y));
            s_contours := s_contours.h_next;
          end;
        end
        else
          cvDrawContours(Destanation.IpImage, FContours, CV_RGB(er, eg, eb), CV_RGB(hr, hg, hb), ContourDraw.MaxLevel,
            ContourDraw.Thickness, cLineType[ContourDraw.LineType], cvPoint(ContourDraw.Offset.X, ContourDraw.Offset.Y));
      end;
      Result := True;
    end;
  finally
    cvReleaseMemStorage(storage)
  end;
end;

procedure TocvContoursOperation.DoNotifyContours(const Image: IocvImage; const ContourCount: Integer; const Contours: pCvSeq);
begin
  if Assigned(OnContour) then
    OnContour(Self, Image, ContourCount, Contours);
end;

{ TocvRotateOperation }

procedure TocvRotateOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvRotateOperation then
  begin
    FCenter := (Dest as TocvRotateOperation).FCenter;
    FMethod := (Dest as TocvRotateOperation).FMethod;
    FWarpingFlag := (Dest as TocvRotateOperation).FWarpingFlag;
    FFillColor := (Dest as TocvRotateOperation).FFillColor
  end;
end;

constructor TocvRotateOperation.Create(AOwner: TPersistent);
begin
  inherited;
  Angle := 90;
  FCenter := TocvPoint2D32f.Create;
  RotateAroundCenter := True;
  Method := INTER_LINEAR;
  WarpingFlag := [WARP_FILL_OUTLIERS];
  Scale := 1;
  FFillColor := clBlack;
end;

destructor TocvRotateOperation.Destroy;
begin
  FCenter.Free;
  inherited;
end;

function TocvRotateOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  rot_mat: pCvMat;
  cvCenter: TCvPoint2D32f;
  D: pIplImage;
  M: Integer;
begin
  // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
  rot_mat := cvCreateMat(2, 3, CV_32FC1);
  // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
  if RotateAroundCenter then
  begin
    cvCenter.X := Source.IpImage^.Width div 2;
    cvCenter.Y := Source.IpImage^.height div 2;
  end
  else
  begin
    cvCenter.X := CustomCenter.X;
    cvCenter.Y := CustomCenter.Y;
  end;
  cv2DRotationMatrix(cvCenter, Angle, Scale, rot_mat);
  // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
  D := cvCreateImage(cvGetSize(Source.IpImage), Source.IpImage^.Depth, Source.IpImage^.nChannels);
  // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
  M := Integer(Method);
  if WARP_FILL_OUTLIERS in FWarpingFlag then
    M := M or CV_WARP_FILL_OUTLIERS;
  if WARP_INVERSE_MAP in FWarpingFlag then
    M := M or CV_WARP_INVERSE_MAP;
  cvWarpAffine(Source.IpImage, D, rot_mat, M, ColorToCvRGB(FillColor));
  cvReleaseMat(rot_mat);
  Destanation := TocvImage.Create(D);
  Result := True;
end;

{ TPersistentPoint }

procedure TocvPoint2D32i.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvPoint2D32f then
    FSize := (Dest as TocvPoint2D32i).FSize;
end;

{ TocvCountourDraw }

procedure TocvDraw.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvDraw then
  begin
    FOffset.FSize := (Dest as TocvDraw).FOffset.FSize;
    FEnabled := (Dest as TocvDraw).FEnabled;
    FThickness := (Dest as TocvDraw).FThickness;
    FLineType := (Dest as TocvDraw).FLineType;
    FColor := (Dest as TocvDraw).FColor;
  end;
end;

constructor TocvDraw.Create(AOwner: TPersistent);
begin
  inherited Create;
  FOwner := AOwner;
  FOffset := TocvPoint2D32i.Create;
  FEnabled := True;
  FThickness := 1;
  FLineType := LT_AA;
  FColor := clGreen;
  FShift := 0;
end;

destructor TocvDraw.Destroy;
begin
  FOffset.Free;
  inherited;
end;

function TocvDraw.GetCvColor: TCvScalar;
begin
  Result := ColorToCvRGB(Color);
end;

function TocvDraw.GetCvLineType: Integer;
begin
  Result := cLineType[LineType];
end;

function TocvDraw.GetOwner: TPersistent;
begin
  Result := FOwner;
end;

{ TocvContourApprox }

procedure TocvContourApprox.AssignTo(Dest: TPersistent);
begin
  if Dest is TocvContourApprox then
  begin
    FEnabled := (Dest as TocvContourApprox).Enabled;
    FEps := (Dest as TocvContourApprox).Eps;
    FRecursive := (Dest as TocvContourApprox).Recursive;
  end
  else
    inherited;
end;

constructor TocvContourApprox.Create(AOwner: TPersistent);
begin
  inherited Create;
  FOwner := AOwner;
  FEnabled := True;
  FEps := 3;
  FRecursive := True;
end;

function TocvContourApprox.GetOwner: TPersistent;
begin
  Result := FOwner;
end;

{ TocvAbsDiff }

function TocvAbsDiff.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  GrayImage: IocvImage;
begin
  GrayImage := Source.GrayImage;
  Destanation := GrayImage.Same;
  if Assigned(FPrevFrame) then
    cvAbsDiff(FPrevFrame.IpImage, GrayImage.IpImage, Destanation.IpImage);
  FPrevFrame := GrayImage;
  Result := True;
end;

{ TocvFaceDetect }

constructor TocvHaarCascade.Create(AOwner: TPersistent);
begin
  inherited;
  FLockFrontalFaceChange := TCriticalSection.Create;
  FMinSize := TocvPoint2D32i.Create(30, 30);
  FMaxSize := TocvPoint2D32i.Create;
  HaarCascade := hcFrontalFaceAlt;
  FDrawHaarCascade := TocvHaarCascadeDraw.Create(Self);
  Scale := 1.3;
  MinNeighbors := 3;
  Equalize := True;
  NotifyOnlyWhenFound := False;
end;

destructor TocvHaarCascade.Destroy;
begin
  FLockFrontalFaceChange.Free;
  FMinSize.Free;
  FMaxSize.Free;
  FDrawHaarCascade.Free;
  ReleaseCascade;
  inherited;
end;

function TocvHaarCascade.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  storage: pCvMemStorage;
  gray: IocvImage;
  detected_objects: pCvSeq;
  i: Integer;
  cvr: pCvRect;
begin
  Destanation := Source;
  Result := ocvHaarCascadeTransform(
    { } Source,
    { } FCascade,
    { } FHaarRects,
    { } MinSize.Size,
    { } MaxSize.Size,
    { } Equalize,
    { } Scale,
    { } MinNeighbors,
    { } CascadeFlags);

  if Result then
  begin
    if Assigned(OnHaarCascade) and ((not NotifyOnlyWhenFound) or (Length(FHaarRects) > 0)) then
      OnHaarCascade(Self, Destanation, FHaarRects);
    if DrawHaarCascade.Enabled then
      for i := 0 to High(FHaarRects) do
        Destanation.Canvas.Rectangle(FHaarRects[i].Left, FHaarRects[i].Top, FHaarRects[i].Right, FHaarRects[i].Bottom,
          DrawHaarCascade.Color, DrawHaarCascade.Thickness, DrawHaarCascade.LineType, DrawHaarCascade.Shift);
  end;
  // if Assigned(FCascade) then
  // begin
  // storage := cvCreateMemStorage(0);
  // try
  // gray := Source.GrayImage;
  // if Equalize then
  // cvEqualizeHist(gray.IpImage, gray.IpImage);
  // detected_objects := cvHaarDetectObjects(gray.IpImage, FCascade, storage, Scale, MinNeighbors, GetHaarCascadeFlag,
  // cvSize(MinSize.X, MinSize.Y), cvSize(MaxSize.X, MaxSize.Y));
  //
  // if Assigned(detected_objects) then
  // begin
  // SetLength(FHaarRects, detected_objects^.total);
  // i := 0;
  // While i < detected_objects^.total do
  // begin
  // cvr := pCvRect(cvGetSeqElem(detected_objects, i));
  // FHaarRects[i] := ocvRect(cvr^.X, cvr^.Y, (cvr^.X) + (cvr^.Width), (cvr^.Y) + (cvr^.height));
  // Inc(i);
  // end;
  //
  // if Assigned(OnHaarCascade) and ((not NotifyOnlyWhenFound) or (detected_objects^.total > 0)) then
  // OnHaarCascade(Self, Destanation, FHaarRects);
  //
  // if DrawHaarCascade.Enabled then
  // begin
  // GetRGBValue(DrawHaarCascade.Color, r, g, b);
  // i := 0;
  // While i < detected_objects^.total do
  // begin
  // cvr := pCvRect(cvGetSeqElem(detected_objects, i));
  // cvRectangle(Destanation.IpImage, cvPoint(cvr^.X, cvr^.Y), cvPoint((cvr^.X) + (cvr^.Width), (cvr^.Y) + (cvr^.height)),
  // CV_RGB(r, g, b), DrawHaarCascade.Thickness, cLineType[DrawHaarCascade.LineType], DrawHaarCascade.Shift);
  // Inc(i);
  // end;
  // end;
  // end;
  // Result := True;
  // finally
  // cvReleaseMemStorage(storage);
  // end;
  // end
  // else
  // Result := False;
end;

procedure TocvHaarCascade.ReleaseCascade;
begin
  if Assigned(FCascade) then
    cvReleaseHaarClassifierCascade(FCascade);
  FCascade := nil;
end;

procedure TocvHaarCascade.SetCustomHaarCascade(const Value: TFileName);
begin
  if FCustomHaarCascade <> Value then
  begin
    FCustomHaarCascade := Value;
    DoLoadHaarCascade(FCustomHaarCascade);
  end;
end;

procedure TocvHaarCascade.DoLoadHaarCascade(const FileName: String);
begin
  ReleaseCascade;
  if FileExists(FileName) then
    FCascade := cvLoad(c_str(FileName), nil, nil, nil);
end;

procedure TocvHaarCascade.SetHaarCascade(const Value: TocvHaarCascadeType);

  function TempPath: string;
  var
    BufSize: Cardinal;
  begin
    BufSize := GetTempPath(0, nil);
    SetLength(Result, BufSize);
    GetTempPath(BufSize, PChar(Result));
    Result := Trim(Result);
  end;

Var
  FullFileName: String;
  RS: TResourceStream;
  DC: TZDecompressionStream;
  FS: TFileStream;
begin
  FLockFrontalFaceChange.Enter;
  try
    if FHaarCascade <> Value then
    begin
      FHaarCascade := Value;
      ReleaseCascade;
    end;
    if not(csDesigning in ComponentState) then
    begin
      ReleaseCascade;
      FCascade := ocvLoadHaarCascade(FHaarCascade);
    end;
  finally
    FLockFrontalFaceChange.Leave;
  end;
end;

constructor TocvPoint2D32i.Create(const AX, AY: Integer);
begin
  X := AX;
  Y := AY;
end;

{ TocvContourDraw }

procedure TocvContourDraw.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvContourDraw then
  begin
    FHoleColor := (Dest as TocvContourDraw).FHoleColor;
    FMaxLevel := (Dest as TocvContourDraw).FMaxLevel;
  end;
end;

constructor TocvContourDraw.Create(AOwner: TPersistent);
begin
  inherited;
  FHoleColor := clRed;
  FMaxLevel := 2;
end;

{ TocvMatchTemplate }

procedure TocvMatchTemplate.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvMatchTemplate then
  begin
    FMethod := (Dest as TocvMatchTemplate).FMethod;
  end;
end;

constructor TocvMatchTemplate.Create(AOwner: TPersistent);
begin
  inherited;
  FTemplate := TPicture.Create;
  FTemplate.OnChange := TemplateOnChange;
  FDrawRect := TocvDraw.Create(Self);
  FMethod := TM_CCOEFF_NORMED;
end;

destructor TocvMatchTemplate.Destroy;
begin
  if Assigned(FIPLTemplate) then
    cvReleaseImage(FIPLTemplate);
  FTemplate.Free;
  FDrawRect.Free;
  inherited;
end;

procedure TocvMatchTemplate.TemplateOnChange(Sender: TObject);
begin
  IPLTemplate := nil;
end;

function TocvMatchTemplate.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  imgMat: pIplImage;
  P1, P2: TCvPoint;
  min: Double;
  r, g, b: byte;
begin
  Destanation := Source;
  if Assigned(IPLTemplate) then
  begin
    imgMat := cvCreateImage(cvSize(Source.IpImage^.Width - IPLTemplate^.Width + 1, Source.IpImage^.height - IPLTemplate^.height + 1),
      IPL_DEPTH_32F, 1);
    cvMatchTemplate(Source.IpImage, IPLTemplate, imgMat, Integer(FMethod));

    if Assigned(OnMathTemplateRect) or DrawRect.Enabled then
    begin
      cvMinMaxLoc(imgMat, @min, @min, nil, @P1, nil);
      P2.X := P1.X + IPLTemplate^.Width - 1;
      P2.Y := P1.Y + IPLTemplate^.height - 1;

      if Assigned(OnMathTemplateRect) then
        OnMathTemplateRect(Self, Source, ocvRect(P1.X, P1.Y, P2.X, P2.Y));

      if DrawRect.Enabled then
      begin
        GetRGBValue(DrawRect.Color, r, g, b);
        cvRectangle(Destanation.IpImage, P1, P2, CV_RGB(r, g, b));
      end;

    end;

    cvReleaseImage(imgMat);

    Result := True;
  end
  else
    Result := False;
end;

function TocvMatchTemplate.GetIPLTemplate: pIplImage;
begin
  if not Assigned(FIPLTemplate) then
  begin
    if not Template.Bitmap.Empty then
      FIPLTemplate := BitmapToIplImage(Template.Bitmap);
  end;
  Result := FIPLTemplate;
end;

procedure TocvMatchTemplate.SetFIPLTemplate(const Value: pIplImage);
begin
  if FIPLTemplate <> Value then
  begin
    if Assigned(FIPLTemplate) then
      cvReleaseImage(FIPLTemplate);
    FIPLTemplate := Value;
  end;
end;

{ TocvMotionDetect }

procedure TocvMotionDetect.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvMotionDetect then
  begin
    FCalcRectType := (Dest as TocvMotionDetect).FCalcRectType;
  end;
end;

constructor TocvMotionDetect.Create(AOwner: TPersistent);
begin
  inherited;
  RemoveSmallObject := True;
  MinObjectSize := 100;
  FSmoothOperation := BLUR;
  FDrawMotionRect := TocvDrawMotionRect.Create(Self);
  OperationClass := TocvThresholdOperation;
  With (Operation as TocvThresholdOperation) do
  begin
    Threshold := 25;
    MaxValue := 255;
  end;
  NotifyOnlyWhenFound := False;
end;

destructor TocvMotionDetect.Destroy;
begin
  FDrawMotionRect.Free;
  inherited;
end;

function TocvMotionDetect.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  CurrentGrayImage: IocvImage;
  DifferenceImage: IocvImage;
  storage: pCvMemStorage;
  area: Double;
  ThresholdImage: IocvImage;
  black, white: TCvScalar;
  c: pCvSeq;
  Rects: TocvRects;
  Rect: TCvRect;
  Rect2d: TCvBox2D;
  i: Integer;
  r, g, b: byte;
begin
  Destanation := Source;
  CurrentGrayImage := Source.GrayImage;

  if not Assigned(FPrevFrame) then
    FPrevFrame := CurrentGrayImage;

  DifferenceImage := CurrentGrayImage.Same;
  cvAbsDiff(FPrevFrame.IpImage, CurrentGrayImage.IpImage, DifferenceImage.IpImage);
  cvSmooth(DifferenceImage.IpImage, DifferenceImage.IpImage, Integer(Smooth));

  if Threshold.DoTransform(DifferenceImage, ThresholdImage) then
  begin
    // img_out := DifferenceImage.Clone;
    storage := cvCreateMemStorage(0);
    FContours := AllocMem(SizeOf(TCvSeq));
    try
      cvFindContours(ThresholdImage.IpImage, storage, @FContours, SizeOf(TCvContour), CV_RETR_LIST, CV_CHAIN_APPROX_SIMPLE, cvPoint(0, 0));

      black := CV_RGB(0, 0, 0);
      white := CV_RGB(255, 255, 255);

      while (FContours <> nil) do
      begin
        area := cvContourArea(FContours, CV_WHOLE_SEQ);
        if (abs(area) <= MinObjectSize) and RemoveSmallObject then // <20><><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>, <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
          cvDrawContours(ThresholdImage.IpImage, FContours, black, black, -1, CV_FILLED, 8, cvPoint(0, 0))
        else
          cvDrawContours(ThresholdImage.IpImage, FContours, white, white, -1, CV_FILLED, 8, cvPoint(0, 0));

        FContours := FContours.h_next; // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
      end;

      cvClearMemStorage(storage);
      SetLength(Rects, 0);

      cvFindContours(ThresholdImage.IpImage, storage, @FContours, SizeOf(TCvContour), CV_RETR_LIST, CV_CHAIN_APPROX_NONE, cvPoint(0, 0));

      if Assigned(FContours) then
      begin
        c := FContours;
        i := 0;
        while (c <> nil) do
        begin
          SetLength(Rects, i + 1);
          if CalcRectType = mdBoundingRect then
          begin
            Rect := cvBoundingRect(c, 0);
            Rects[i] := ocvRect(Rect.X, Rect.Y, Rect.X + Rect.Width, Rect.Y + Rect.height);
          end
          else if CalcRectType = mdMinAreaRect then
          begin
            Rect2d := cvMinAreaRect2(c);
            Rects[i] := ocvRect(Round(Rect2d.Center.X - Rect2d.Size.Width / 2), Round(Rect2d.Center.Y - Rect2d.Size.height / 2),
              Round(Rect2d.Center.X + Rect2d.Size.Width / 2), Round(Rect2d.Center.Y + Rect2d.Size.height / 2));
          end;

          if DrawMotionRect.Enabled then
          begin
            GetRGBValue(DrawMotionRect.Color, r, g, b);
            cvRectangle(Destanation.IpImage, cvPoint(Rects[i].Left, Rects[i].Top), cvPoint(Rects[i].Right, Rects[i].Bottom),
              CV_RGB(r, g, b), DrawMotionRect.Thickness, cLineType[DrawMotionRect.LineType], DrawMotionRect.Shift);
          end;
          Inc(i);
          c := c.h_next;
        end;
      end;

      if Assigned(OnMotion) and ((not NotifyOnlyWhenFound) or (Length(Rects) > 0)) then
        OnMotion(Self, Destanation, Rects);

    finally
      cvReleaseMemStorage(storage);
    end;
  end;

  FPrevFrame := CurrentGrayImage;

  Result := True;
end;

function TocvMotionDetect.GetPropertiesClass: TocvImageOperationClass;
begin
  if not Assigned(FOperation) then
    Result := TocvThresholdOperation
  else
    Result := inherited;
end;

{ TocvCustomImageOperationWithNestedOperation }

constructor TocvCustomImageOperationWithNestedOperation.Create(AOwner: TPersistent);
begin
  inherited;
  CS := TCriticalSection.Create;
end;

procedure TocvCustomImageOperationWithNestedOperation.CreateProperties;
begin
  FOperation := FOperationClass.Create(Self);
end;

function TocvCustomImageOperationWithNestedOperation.GetProperties: TocvCustomImageOperation;
begin
  if not Assigned(FOperation) then
    FOperation := OperationClass.Create(Self);
  Result := FOperation;
end;

function TocvCustomImageOperationWithNestedOperation.GetPropertiesClass: TocvImageOperationClass;
begin
  if Assigned(FOperation) then
    Result := TocvImageOperationClass(FOperation.ClassType)
  else
    Result := TocvNoneOperation;
end;

destructor TocvCustomImageOperationWithNestedOperation.Destroy;
begin
  CS.Free;
  DestroyProperties;
  inherited;
end;

procedure TocvCustomImageOperationWithNestedOperation.DestroyProperties;
begin
  if Assigned(FOperation) then
    FreeAndNil(FOperation);
end;

function TocvCustomImageOperationWithNestedOperation.GetPropertiesClassName: string;
begin
  Result := Operation.ClassName;
end;

procedure TocvCustomImageOperationWithNestedOperation.RecreateProperties;
begin
  DestroyProperties;
  CreateProperties;
end;

procedure TocvCustomImageOperationWithNestedOperation.SetProperties(const Value: TocvCustomImageOperation);
begin
  if (FOperation <> nil) and (Value <> nil) then
    FOperation.Assign(Value);
end;

procedure TocvCustomImageOperationWithNestedOperation.SetPropertiesClass(Value: TocvImageOperationClass);
begin
  if FOperationClass <> Value then
  begin
    FOperationClass := Value;
    RecreateProperties;
  end;
end;

procedure TocvCustomImageOperationWithNestedOperation.SetPropertiesClassName(const Value: string);
begin
  OperationClass := TocvImageOperationClass(GetRegisteredImageOperations.FindByClassName(Value));
end;

function TocvCustomImageOperationWithNestedOperation.LockTransform: Boolean;
begin
  Result := CS.TryEnter;
end;

procedure TocvCustomImageOperationWithNestedOperation.UnlockTransform;
begin
  CS.Leave;
end;

{ TocvRectPersistent }

procedure TocvRect32i.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvRect32i then
  begin
    FRight := (Dest as TocvRect32i).FRight;
    FBottom := (Dest as TocvRect32i).FBottom;
    FTop := (Dest as TocvRect32i).FTop;
    FLeft := (Dest as TocvRect32i).FLeft;
  end;
end;

function TocvRect32i.GetCvRect: TCvRect;
begin
  Result := ocv.core.types_c.cvRect(Left, Top, Width, height);
end;

function TocvRect32i.GetHeight: Integer;
begin
  Result := Bottom - Top;
end;

function TocvRect32i.GetOcvRect: TocvRect;
begin
  Result := ocv.comp.Types.ocvRect(Left, Top, Right, Bottom);
end;

function TocvRect32i.GetWidth: Integer;
begin
  Result := Right - Left;
end;

procedure TocvRect32i.SetCvRect(const Value: TCvRect);
begin
  Left := Value.X;
  Top := Value.Y;
  Width := Value.Width;
  height := Value.height;
end;

procedure TocvRect32i.SetHeight(const Value: Integer);
begin
  Bottom := Top + Value;
end;

procedure TocvRect32i.SetOcvRect(const Value: TocvRect);
begin
  FLeft := Value.Left;
  FTop := Value.Top;
  FRight := Value.Right;
  FBottom := Value.Bottom;
end;

procedure TocvRect32i.SetWidth(const Value: Integer);
begin
  FRight := FLeft + Value;
end;

{ TocvCropOperation }

constructor TocvCropOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FCropRect := TocvRect32i.Create;
end;

destructor TocvCropOperation.Destroy;
begin
  FCropRect.Free;
  inherited;
end;

function TocvCropOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  if FCropRect.ocvRect.IsEmpty then
    Destanation := Source
  else
    Destanation := Source.Crop(FCropRect.cvRect);
  Result := True;
end;

{ TocvImageOperationCollection }

function TocvImageOperationCollection.Transform(const Source: IocvImage; out Destanation: IocvImage): Boolean;

  function iif(const index: Integer): TObject;
  begin
    if (index < 0) or (index >= Count) then
      Result := nil
    else
      Result := (Items[index] as TocvImageOperationCollectionItem).Operation;
  end;

Var
  i: Integer;
  ContinueTransform: Boolean;
begin
  Destanation := Source;
  ContinueTransform := True;
  Result := True;
  for i := 0 to Count - 1 do
  begin
    if Assigned(FOnBeforeEachOperation) then
      FOnBeforeEachOperation(iif(i - 1), iif(i), iif(i + 1), Destanation, ContinueTransform);
    if not ContinueTransform then
      Break;
    Result := (Items[i] as TocvImageOperationCollectionItem).DoTransform(Destanation.Clone, Destanation);
    if not Result then
      Break;
    if Assigned(FOnAfterEachOperation) then
    begin
      FOnAfterEachOperation(iif(i - 1), iif(i), iif(i + 1), Destanation, ContinueTransform);
      if not ContinueTransform then
        Break;
    end;
  end;
end;

{ TocvAddWeightedOperation }

constructor TocvCommonMathOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FTransformInterpolation := INTER_CUBIC;
end;

procedure TocvCommonMathOperation.DoGetMaskImage(var Image: IocvImage);
begin
  Image := nil;
  if Assigned(FOnGetMaskImage) then
    FOnGetMaskImage(Self, Image);
end;

procedure TocvCommonMathOperation.DoGetSourceImage(var Image: IocvImage);
begin
  FCriticalSection.Enter;
  try
    Image := FSrource2Image;
  finally
    UnlockTransform;
  end;
  if Assigned(FOnGetImage) then
    FOnGetImage(Self, Image);
end;

procedure TocvCommonMathOperation.GetImagesForTransorm(out Source1: IocvImage; out Source2, Mask: IocvImage);
Var
  s1, s2, M: IocvImage;
begin
  Source1 := VideoSource.Image;
  DoGetSourceImage(s2);
  DoGetMaskImage(M);
  if Assigned(s2) and ((s1.Width <> s2.Width) or (s1.height <> s2.height)) then
  begin
    Source2 := s1.Same;
    cvResize(s2.IpImage, Source2.IpImage, Integer(TransformInterpolation));
  end
  else
    Source2 := s2;

  if Assigned(M) and ((s1.Width <> M.Width) or (s1.height <> M.height)) then
  begin
    Mask := s1.Same;
    cvResize(M.IpImage, Mask.IpImage, Integer(TransformInterpolation));
  end
  else
    Mask := M;
end;

procedure TocvCommonMathOperation.SetVideoSource_Source2(const Value: IocvDataSource);
begin
  if FocvVideoSource <> Value then
  begin
    if Assigned(FocvVideoSource) then
      FocvVideoSource.RemoveReceiver(Self);
    FocvVideoSource := Value;
    if Assigned(FocvVideoSource) then
      FocvVideoSource.AddReceiver(Self);
  end;
end;

procedure TocvCommonMathOperation.SetVideoSource(const Value: TObject);
begin
  VideoSource := Value as TocvDataSource;
end;

procedure TocvCommonMathOperation.TakeImage(const IplImage: IocvImage);
begin
  if LockTransform then
    try
      FSrource2Image := IplImage;
    finally
      UnlockTransform;
    end;
end;

{ TocvWarpAffine }

procedure TocvWarpPerspective.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvWarpPerspective then
  begin
    FMethod := (Dest as TocvWarpPerspective).FMethod;
    FWarpingFlag := (Dest as TocvWarpPerspective).FWarpingFlag;
    FFillColor := (Dest as TocvWarpPerspective).FFillColor;
    FSourceQuad.AssignTo((Dest as TocvWarpPerspective).FSourceQuad);
    FDestQuad.AssignTo((Dest as TocvWarpPerspective).FDestQuad);
  end;
end;

constructor TocvWarpPerspective.Create(AOwner: TPersistent);
begin
  inherited;
  FSourceQuad := TocvQuad.Create;
  FDestQuad := TocvQuad.Create;
  Method := INTER_LINEAR;
  WarpingFlag := [WARP_FILL_OUTLIERS];
  FullSourceImage := True;
  FFillColor := clBlack;
end;

destructor TocvWarpPerspective.Destroy;
begin
  FSourceQuad.Free;
  FDestQuad.Free;
  inherited;
end;

function TocvWarpPerspective.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  dst: pIplImage;
  srcQuad, dstQuad: TocvQuad.TCvPoint2D32fArray;
  warp_matrix: pCvMat;
begin
  if DestQuad.ShaIsConvexQuadrangle then
  begin
    if FullSourceImage or (not SourceQuad.ShaIsConvexQuadrangle) then
    begin
      srcQuad[0].X := 0; // src Top left
      srcQuad[0].Y := 0;
      srcQuad[1].X := Source.Width - 1; // src Top right
      srcQuad[1].Y := 0;
      srcQuad[2].X := 0; // src Bottom left
      srcQuad[2].Y := Source.height - 1;
      srcQuad[3].X := Source.Width - 1; // src Bot right
      srcQuad[3].Y := Source.height - 1;
    end
    else
      srcQuad := SourceQuad.cvQuad;

    dstQuad := DestQuad.cvQuad;
    warp_matrix := cvCreateMat(3, 3, CV_32FC1);
    dst := cvCloneImage(Source.IpImage);
    cvGetPerspectiveTransform(@srcQuad, @dstQuad, warp_matrix);
    cvWarpPerspective(Source.IpImage, dst, warp_matrix, CV_INTER_LINEAR or CV_WARP_FILL_OUTLIERS, ColorToCvRGB(FillColor));
    Destanation := TocvImage.Create(dst);
  end
  else
    Destanation := Source;
  Result := True;
end;

{ TocvAddWeightedOperation }

constructor TocvAddWeightedOperation.Create(AOwner: TPersistent);
begin
  inherited;
  Alpha := 0.5;
  Beta := 0.5;
  Gamma := 0;
end;

function TocvAddWeightedOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  s1, s2, M: IocvImage;
begin
  GetImagesForTransorm(s1, s2, M);
  try
    Destanation := s1.Same;
    // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD> ROI
    cvAddWeighted(s1.IpImage, Alpha, s2.IpImage, Beta, Gamma, Destanation.IpImage);
    Result := True;
  except
    Destanation := Source;
    Result := False;
  end;
end;

{ TocvQuad }

procedure TocvQuad.AssignTo(Dest: TPersistent);
Var
  i: Integer;
begin
  inherited;
  if Dest is TocvQuad then
    for i := 0 to 3 do
      FPoints[i].AssignTo((Dest as TocvQuad).FPoints[i]);
end;

constructor TocvQuad.Create;
Var
  i: Integer;
begin
  inherited;
  for i := 0 to 3 do
    FPoints[i] := TocvPoint2D32f.Create;
end;

destructor TocvQuad.Destroy;
Var
  i: Integer;
begin
  for i := 0 to 3 do
    FPoints[i].Free;
  inherited;
end;

function TocvQuad.GetCvQuad: TCvPoint2D32fArray;
Var
  i: Integer;
begin
  for i := 0 to 3 do
  begin
    Result[i].X := FPoints[i].X;
    Result[i].Y := FPoints[i].Y;
  end;
end;

function TocvQuad.GetPoints(const index: Integer): TocvPoint2D32f;
begin
  if (index >= 0) and (index < 4) then
    Result := FPoints[index]
  else
    Result := nil;
end;

function TocvQuad.ShaIsConvexQuadrangle: Boolean;
begin
  Result := True;
  // ---------------------------------
  // Procedure GetVector(const i: byte; var P: TCvPoint2D32f);
  // begin
  // P.X := FPoints[(i + 1) and 3].X - FPoints[i and 3].X;
  // P.Y := FPoints[(i + 1) and 3].Y - FPoints[i and 3].Y;
  // end;
  //
  // Var
  // Q: Boolean;
  // v1, v2: TCvPoint2D32f;
  // T, Z, P: Double;
  // i: Integer;
  // begin
  // GetVector(3, v1);
  // GetVector(0, v2);
  // T := v1.X * v2.Y - v2.X * v1.Y;
  // Z := Sign(T);
  // P := 1.0;
  // i := 0;
  // Q := True;
  // while (Q and (i < 4)) do
  // begin
  // GetVector(i, v1);
  // GetVector(i + 1, v2);
  // T := v1.X * v2.Y - v2.X * v1.Y;
  // P := P * Z * Sign(T);
  // if (P < 0) then
  // Q := False;
  // Inc(i);
  // end;
  // Result := Q;
  // ---------------------------------
  // ---------------------------------
  // function ShaIsSameDirection(const t0, t1, t2: TocvPoint2D32f; var dir: Integer): Boolean;
  // const
  // MinInt = -1 xor MaxInt;
  // var
  // S: Integer;
  // begin;
  // S := Trunc((t1.X - t0.X) * (t2.Y - t0.Y) - (t2.X - t0.X) * (t1.Y - t0.Y));
  // if S = 0 then
  // Result := True
  // else
  // begin;
  // S := S or MaxInt;
  // Result := (S xor dir) <> MinInt;
  // dir := S;
  // end;
  // end;
  // var
  // dir: Integer;
  // begin;
  // dir := 0;
  // Result := ShaIsSameDirection(P0, P1, P2, dir) and ShaIsSameDirection(P1, P2, P3, dir) and ShaIsSameDirection(P2, P3, P0, dir)
  // and ShaIsSameDirection(P3, P0, P1, dir) and (dir <> 0);
  // ---------------------------------
end;

procedure TocvQuad.SetPoints(const index: Integer; const Value: TocvPoint2D32f);
begin
  if (index >= 0) and (index < 4) then
    FPoints[index] := Value;
end;

{ TocvPoint2D32f }

procedure TocvPoint2D32f.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvPoint2D32f then
  begin
    FX := (Dest as TocvPoint2D32f).FX;
    FY := (Dest as TocvPoint2D32f).FY;
  end;
end;

constructor TocvPoint2D32f.Create(const AX, AY: Single);
begin
  FX := AX;
  FY := AY;
end;

{ TocvHoughCircles }

procedure TocvHoughCircles.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvHoughCircles then
  begin
    FHoughTransform := (Dest as TocvHoughCircles).FHoughTransform;
  end;
end;

constructor TocvHoughCircles.Create(AOwner: TPersistent);
begin
  inherited;
  FHoughTransform := HOUGH_GRADIENT;
  InverseRatio := 1;
  MinDist := 100;
  Param1 := 100;
  Param2 := 100;
  MinRadius := 0;
  MaxRadius := 0;
  FDrawCircle := TocvDrawHoughCircles.Create(Self);
  NotifyOnlyWhenFound := False;
  FSmooth := TocvHoughCirclesSmooth.Create;
  FSmooth.SmoothType := GAUSSIAN;
  FSmooth.size1 := 5;
  FSmooth.size2 := 5;
  FSmooth.sigma1 := 0;
  FSmooth.sigma2 := 0;
end;

destructor TocvHoughCircles.Destroy;
begin
  FDrawCircle.Free;
  FSmooth.Free;
  inherited;
end;

function TocvHoughCircles.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
type
  TFloatArray = array [0 .. 10] of Single;
  pFloatArray = ^TFloatArray;

Var
  results: pCvSeq;
  storage: pCvMemStorage;
  Circles: TocvCircles;
  i: Integer;
  p: pFloatArray;
  D: IocvImage;
begin
  SetLength(Circles, 0);
  Destanation := Source;
  try
    storage := cvCreateMemStorage(0);
    results := nil;
    try

      if Smooth.Enabled then
      begin
        D := Source.Same;
        cvSmooth(Source.IpImage, D.IpImage, ocvSmoothOperations[Smooth.SmoothType], Smooth.size1, Smooth.size2, Smooth.sigma1,
          Smooth.sigma2);
      end
      else
        D := Source;

      results := cvHoughCircles(D.GrayImage.IpImage, storage, Integer(Method), InverseRatio, MinDist, Param1, Param2, MinRadius, MaxRadius);
      if Assigned(results) then
      begin
        SetLength(Circles, results^.total);
        for i := 0 to results^.total - 1 do
        begin
          p := pFloatArray(cvGetSeqElem(results, i));
          Circles[i].cX := cvRound(p^[0]);
          Circles[i].cY := cvRound(p^[1]);
          Circles[i].Radius := cvRound(p^[2]);
          if DrawCircle.Enabled then
            cvCircle(Destanation.IpImage, cvPoint(Circles[i].cX, Circles[i].cY), Circles[i].Radius, DrawCircle.cvColor,
              DrawCircle.Thickness, DrawCircle.cvLineType, DrawCircle.Shift);
        end;
      end;
    finally
      cvReleaseMemStorage(storage);
    end;
  except
  end;
  if Assigned(OnCircles) and ((Length(Circles) > 0) or (not NotifyOnlyWhenFound)) then
    OnCircles(Self, Destanation, Circles);
end;

{ TocvHoughLines }

procedure TocvHoughLines.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvHoughLines then
  begin
    FHoughTransform := (Dest as TocvHoughLines).FHoughTransform
  end;
end;

constructor TocvHoughLines.Create(AOwner: TPersistent);
begin
  inherited;
  FHoughTransform := HOUGH_PROBABILISTIC;
  Rho := 1;
  Theta := CV_PI / 180;
  Param1 := 50;
  Param2 := 10;
  Threshold := 50;
  FCanny := TocvHoughLinesCanny.Create;
  FDrawLines := TocvDrawHoughLines.Create(Self);
  NotifyOnlyWhenFound := True;
end;

destructor TocvHoughLines.Destroy;
begin
  FCanny.Free;
  FDrawLines.Free;
  inherited;
end;

function TocvHoughLines.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  lines: pCvSeq;
  line: pCvPointArray;
  storage: pCvMemStorage;
  SG, D: IocvImage;
  i: Integer;
  ocvlines: TocvLines;
begin
  lines := nil;
  SetLength(ocvlines, 0);
  Destanation := Source;
  try
    storage := cvCreateMemStorage(0);
    try
      SG := Source.GrayImage;
      D := SG.Same;
      cvCanny(SG.IpImage, D.IpImage, Canny.Threshold1, Canny.Threshold2, Canny.ApertureSize);
      lines := cvHoughLines2(D.IpImage, storage, Integer(Method), Rho, Theta, Threshold, Param1, Param2);
      if Assigned(lines) then
      begin
        SetLength(ocvlines, lines^.total);
        for i := 0 to lines^.total - 1 do
        begin
          line := pCvPointArray(cvGetSeqElem(lines, i));
          ocvlines[i].S := line^[0];
          ocvlines[i].E := line^[1];
          if DrawLines.Enabled then
            cvLine(Destanation.IpImage, line^[0], line^[1], DrawLines.cvColor, DrawLines.Thickness, DrawLines.cvLineType, DrawLines.Shift);
        end;
      end;

      if Assigned(OnLines) and ((Length(ocvlines) > 0) or (not NotifyOnlyWhenFound)) then
        OnLines(Self, Destanation, ocvlines);
    finally
      cvReleaseMemStorage(storage);
    end;
  except

  end;
end;

{ TocvHoughCirclesSmooth }

procedure TocvHoughCirclesSmooth.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvHoughCirclesSmooth then
  begin
    FSmoothOperation := (Dest as TocvHoughCirclesSmooth).FSmoothOperation;
    Fsigma1 := (Dest as TocvHoughCirclesSmooth).Fsigma1;
    Fsigma2 := (Dest as TocvHoughCirclesSmooth).Fsigma2;
    Fsize1 := (Dest as TocvHoughCirclesSmooth).Fsize1;
    Fsize2 := (Dest as TocvHoughCirclesSmooth).Fsize2;
    FEnabled := (Dest as TocvHoughCirclesSmooth).FEnabled;
  end;
end;

constructor TocvHoughCirclesSmooth.Create;
begin
  inherited;
  FSmoothOperation := GAUSSIAN;
  Fsigma1 := 0;
  Fsigma2 := 0;
  Fsize1 := 5;
  Fsize2 := 5;
  FEnabled := True;
end;

{ TocvHoughLinesCanny }

procedure TocvHoughLinesCanny.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvHoughLinesCanny then
  begin
    FThreshold1 := (Dest as TocvHoughLinesCanny).FThreshold1;
    FThreshold2 := (Dest as TocvHoughLinesCanny).FThreshold2;
    FApertureSize := (Dest as TocvHoughLinesCanny).FApertureSize;
  end;
end;

constructor TocvHoughLinesCanny.Create;
begin
  inherited;
  FThreshold1 := 50;
  FThreshold2 := 200;
  FApertureSize := 3;
end;

{ TocvInRangeOperation }

procedure TocvInRangeSOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvInRangeSOperation then
  begin
    FLower := (Dest as TocvInRangeSOperation).FLower;
    FUpper := (Dest as TocvInRangeSOperation).FUpper;
  end;
end;

constructor TocvInRangeSOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FLower := TocvScalar.Create;
  FUpper := TocvScalar.Create;
end;

destructor TocvInRangeSOperation.Destroy;
begin
  FLower.Free;
  FUpper.Free;
  inherited;
end;

function TocvInRangeSOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
begin
  Destanation := Source.Clone;
  try
    cvInRangeS(Source.IpImage, FLower.CvScalar, FUpper.CvScalar, Destanation.IpImage);
    Result := True;
  except
    Result := False;
  end;
end;

{ TocvScalar }

procedure TocvScalar.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvScalar then
    FCvScalar := (Dest as TocvScalar).FCvScalar;
end;

function TocvScalar.GetScalar(const index: Integer): Double;
begin
  if (index >= 0) and (index < 4) then
    Result := FCvScalar.val[index]
  else
    Result := 0;
end;

procedure TocvScalar.SetScalar(const index: Integer; const Value: Double);
begin
  if (index >= 0) and (index < 4) then
    FCvScalar.val[index] := Value;
end;

{ TocvCvtColorOperation }

constructor TocvCvtColorOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FColorConversion := RGB2GRAY;
  FDepth := DEPTH_8U;
  FChannels := 1;
  // FAutoCalcParams := True;
end;

function TocvCvtColorOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  iImage: pIplImage;
begin
  // if FAutoCalcParams then
  // CalculateImageParams(Source);
  iImage := cvCreateImage(cvGetSize(Source.IpImage), cIPLDepth[Depth], Channels);
  try
    cvCvtColor(Source.IpImage, iImage, cColorConversion[ColorConversion]);
    Destanation := TocvImage.Create(iImage);
    Result := True;
  except
    Destanation := Source;
    Result := False;
  end;
end;

// procedure TocvCvtColorOperation.CalculateImageParams(const Source: IocvImage);
// Var
// scn, Depth: Integer;
// code: Integer;
// dcn: Integer;
// begin
// scn := Source.IpImage^.nChannels;
// dcn := scn;
// Depth := Source.IpImage^.Depth;
// code := CVColorConversion[ColorConversion];
// case code of
// CV_BGR2BGRA, CV_RGB2BGRA, CV_BGRA2BGR, CV_RGBA2BGR, CV_RGB2BGR, CV_BGRA2RGBA:
// begin
// if (code = CV_BGR2BGRA) or (code = CV_RGB2BGRA) or (code = CV_BGRA2RGBA) then
// dcn := 4
// else
// dcn := 3;
// end;
// CV_BGR2BGR565, CV_BGR2BGR555, CV_RGB2BGR565, CV_RGB2BGR555, CV_BGRA2BGR565, CV_BGRA2BGR555, CV_RGBA2BGR565, CV_RGBA2BGR555:
// begin
// Assert((scn = 3) or (scn = 4) and (Depth = IPL_DEPTH_8U));
// end;
// CV_BGR5652BGR, CV_BGR5552BGR, CV_BGR5652RGB, CV_BGR5552RGB, CV_BGR5652BGRA, CV_BGR5552BGRA, CV_BGR5652RGBA, CV_BGR5552RGBA:
// begin
// if (dcn <= 0) then
// if (code = CV_BGR5652BGRA) or (code = CV_BGR5552BGRA) or (code = CV_BGR5652RGBA) or (code = CV_BGR5552RGBA) then
// dcn := 4
// else
// dcn := 3;
// Assert((scn = 2) and (Depth = IPL_DEPTH_8U));
// end;
// CV_BGR2GRAY, CV_BGRA2GRAY, CV_RGB2GRAY, CV_RGBA2GRAY:
// begin
// Assert(scn = 3) or (scn = 4);
// dcn := 1;
// end;
// CV_BGR5652GRAY, CV_BGR5552GRAY:
// begin
// Assert((scn = 2) and (Depth = IPL_DEPTH_8U));
// dcn := 1;
// end;
// end;
// end;

{ TocvResizeOperation }

procedure TocvResizeOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvResizeOperation then
    FInterpolation := (Dest as TocvResizeOperation).FInterpolation;
end;

constructor TocvResizeOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FInterpolation := INTER_LINEAR;
end;

function TocvResizeOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  D: pIplImage;
begin
  Destanation := Source;
  if (DestWidth <> 0) and (DestHeight <> 0) then
    try
      D := cvCreateImage(cvSize(DestWidth, DestHeight), Source.IpImage^.Depth, Source.IpImage^.nChannels);
      cvResize(Source.IpImage, D, Integer(Interpolation));
      Destanation := TocvImage.Create(D);
      Result := True;
    except
      Result := False;
    end;
end;

{ TocvMathLogicOperation }

procedure TocvLogicOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvLogicOperation then
    FOperation := (Dest as TocvLogicOperation).FOperation;
end;

constructor TocvLogicOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FOperation := ioAdd;
end;

function TocvLogicOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  s1, s2, M: IocvImage;
  _m: pIplImage;
begin
  GetImagesForTransorm(s1, s2, M);
  try
    Destanation := s1.Same;
    if Assigned(M) then
      _m := M.IpImage
    else
      _m := nil;
    case Operation of
      ioAdd:
        cvAdd(s1.IpImage, s2.IpImage, Destanation.IpImage, _m);
      ioSub:
        cvSub(s1.IpImage, s2.IpImage, Destanation.IpImage, _m);
      ioAnd:
        cvAnd(s1.IpImage, s2.IpImage, Destanation.IpImage, _m);
      ioOr:
        cvOr(s1.IpImage, s2.IpImage, Destanation.IpImage, _m);
      ioXor:
        cvXor(s1.IpImage, s2.IpImage, Destanation.IpImage, _m);
    end;
    Result := True;
  except
    Destanation := Source;
    Result := False;
  end;
end;

{ TocvLogicSOperation }

procedure TocvLogicSOperation.AssignTo(Dest: TPersistent);
begin
  inherited;
  if Dest is TocvLogicSOperation then
    FOperation := (Dest as TocvLogicSOperation).FOperation;
end;

constructor TocvLogicSOperation.Create(AOwner: TPersistent);
begin
  inherited;
  FValue := TocvScalar.Create;
  FOperation := ioAddS;
end;

destructor TocvLogicSOperation.Destroy;
begin
  FValue.Free;
  inherited;
end;

function TocvLogicSOperation.DoTransform(const Source: IocvImage; out Destanation: IocvImage): Boolean;
Var
  s1, s2, M: IocvImage;
  _m: pIplImage;
begin
  GetImagesForTransorm(s1, s2, M);
  try
    Destanation := s1.Same;
    if Assigned(M) then
      _m := M.IpImage
    else
      _m := nil;
    case Operation of
      ioAddS:
        cvAddS(s1.IpImage, Value.CvScalar, Destanation.IpImage, _m);
      ioSubS:
        cvSubS(s1.IpImage, Value.CvScalar, Destanation.IpImage, _m);
      ioSubRS:
        cvSubRS(s1.IpImage, Value.CvScalar, Destanation.IpImage, _m);
      ioXorS:
        cvXorS(s1.IpImage, Value.CvScalar, Destanation.IpImage, _m);
    end;
    Result := True;
  except
    Destanation := Source;
    Result := False;
  end;
end;

initialization

GetRegisteredImageOperations.RegisterIOClass(TocvNoneOperation, 'None');
GetRegisteredImageOperations.RegisterIOClass(TocvGrayScaleOperation, 'GrayScale');
GetRegisteredImageOperations.RegisterIOClass(TocvCannyOperation, 'Canny');
GetRegisteredImageOperations.RegisterIOClass(TocvSmoothOperation, 'Smooth');
GetRegisteredImageOperations.RegisterIOClass(TocvErodeOperation, 'Erode');
GetRegisteredImageOperations.RegisterIOClass(TocvDilateOperation, 'Dilate');
GetRegisteredImageOperations.RegisterIOClass(TocvLaplaceOperation, 'Laplace');
GetRegisteredImageOperations.RegisterIOClass(TocvSobelOperation, 'Sobel');
GetRegisteredImageOperations.RegisterIOClass(TocvThresholdOperation, 'Threshold');
GetRegisteredImageOperations.RegisterIOClass(TocvAdaptiveThresholdOperation, 'AdaptiveThreshold');
GetRegisteredImageOperations.RegisterIOClass(TocvContoursOperation, 'Contours');
GetRegisteredImageOperations.RegisterIOClass(TocvRotateOperation, 'Rotate');
GetRegisteredImageOperations.RegisterIOClass(TocvAbsDiff, 'AbsDiff');
GetRegisteredImageOperations.RegisterIOClass(TocvHaarCascade, 'HaarCascade');
GetRegisteredImageOperations.RegisterIOClass(TocvMatchTemplate, 'MatchTemplate');
GetRegisteredImageOperations.RegisterIOClass(TocvMotionDetect, 'MotionDetect');
GetRegisteredImageOperations.RegisterIOClass(TocvCropOperation, 'Crop');
GetRegisteredImageOperations.RegisterIOClass(TocvAddWeightedOperation, 'AddWeighted');
GetRegisteredImageOperations.RegisterIOClass(TocvWarpPerspective, 'WarpPerspective');
GetRegisteredImageOperations.RegisterIOClass(TocvHoughCircles, 'HoughCircles');
GetRegisteredImageOperations.RegisterIOClass(TocvHoughLines, 'HoughLines');
GetRegisteredImageOperations.RegisterIOClass(TocvInRangeSOperation, 'InRangeS');
GetRegisteredImageOperations.RegisterIOClass(TocvCvtColorOperation, 'ColorOperation');
GetRegisteredImageOperations.RegisterIOClass(TocvResizeOperation, 'Resize');
GetRegisteredImageOperations.RegisterIOClass(TocvLogicOperation, 'Logic');
GetRegisteredImageOperations.RegisterIOClass(TocvLogicSOperation, 'LogicS');

finalization

if Assigned(_RegisteredImageOperations) then
  FreeAndNil(_RegisteredImageOperations);

end.