Delphi-OpenCV/component/uOCVImageOperation.pas

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// *****************************************************************
// 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 uOCVImageOperation;
{$ENDIF}
interface
uses
{$IFDEF VER6P}
Winapi.Windows,
Vcl.Graphics,
System.SysUtils,
System.Classes,
System.SyncObjs,
System.Types,
2014-05-19 13:05:37 +02:00
System.ZLib,
{$ELSE}
Windows,
Graphics,
SysUtils,
Classes,
SyncObjs,
2014-05-19 13:05:37 +02:00
{$IFNDEF VER5}Types,{$ENDIF VER5}
ZLib,
{$ENDIF VER6P}
uOCVTypes,
objdetect_c,
core.types_c;
type
TocvCustomImageOperation = class(TComponent)
protected
procedure AssignTo(Dest: TPersistent); override;
private
FCriticalSection: TCriticalSection;
FOwner: TPersistent;
FFloatParams: TArray<Double>;
FIntParams: TArray<Integer>;
FBoolParams: TArray<Boolean>;
FOnAfterPaint: TOnOcvAfterTransform;
FOnBeforePaint: TOnOcvBeforeTransform;
protected
function GetFloatParam(const index: Integer): Double;
function GetIntParam(const index: Integer): Integer;
procedure SetFloatParam(const index: Integer; const Value: Double);
procedure SetIntParam(const index: Integer; const Value: Integer);
function GetBoolParam(const index: Integer): Boolean;
procedure SetBoolParam(const index: Integer; const Value: Boolean);
function LockTransform: Boolean;
procedure UnlockTransform;
function GetOwner: TPersistent; override;
function DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; virtual;
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; virtual;
function GetNamePath: string; override;
property Name;
published
property OnAfterPaint: TOnOcvAfterTransform read FOnAfterPaint write FOnAfterPaint;
property OnBeforePaint: TOnOcvBeforeTransform read FOnBeforePaint write FOnBeforePaint;
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; var Destanation: IocvImage): Boolean; override;
end;
TocvGrayScaleOperation = class(TocvCustomImageOperation)
public
function DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; override;
end;
TovcCannyOperation = class(TocvCustomImageOperation)
public
constructor Create(AOwner: TPersistent); override;
function DoTransform(const Source: IocvImage; var 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);
TovcCustomErodeDilateOperation = 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;
TovcErodeOperation = class(TovcCustomErodeDilateOperation)
public
function DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; override;
end;
TovcDilateOperation = class(TovcCustomErodeDilateOperation)
public
function DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; override;
end;
TocvLaplaceOperation = class(TocvCustomImageOperation)
public
constructor Create(AOwner: TPersistent); override;
function DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; override;
published
property Aperture: Integer index 0 Read GetIntParam write SetIntParam;
end;
TovcSobelOperation = class(TocvCustomImageOperation)
public
constructor Create(AOwner: TPersistent); override;
function DoTransform(const Source: IocvImage; var 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);
TovcSmoothOperation = 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; var 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 SmoothOperation: 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; var 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; var 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;
TocvPoint = class(TPersistent)
protected
procedure AssignTo(Dest: TPersistent); override;
private
FPoint: TPoint;
public
constructor Create(const AX: Integer = 0; const AY: Integer = 0);
published
property X: Integer read FPoint.X write FPoint.X;
property Y: Integer read FPoint.Y write FPoint.Y;
end;
TocvInterpolationMethod = (INTER_NN, INTER_LINEAR, INTER_CUBIC, INTER_AREA, INTER_LANCZOS4);
TocvInterpolationWarpingFlag = (WARP_FILL_OUTLIERS, WARP_INVERSE_MAP);
TocvInterpolationWarpingFlagSet = set of TocvInterpolationWarpingFlag;
TocvRotateOperation = class(TocvCustomImageOperation)
protected
procedure AssignTo(Dest: TPersistent); override;
private
FCustomCenter: TocvPoint;
FMethod: TocvInterpolationMethod;
FWarpingFlag: TocvInterpolationWarpingFlagSet;
FScale: Double;
public
constructor Create(AOwner: TPersistent); override;
destructor Destroy; override;
function DoTransform(const Source: IocvImage; var 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: TocvPoint Read FCustomCenter write FCustomCenter;
property Method: TocvInterpolationMethod read FMethod write FMethod default INTER_LINEAR;
property WarpingFlag: TocvInterpolationWarpingFlagSet read FWarpingFlag write FWarpingFlag default [WARP_FILL_OUTLIERS];
property Scale: Double read FScale write FScale;
end;
TocvAbsDiff = class(TocvCustomImageOperation)
protected
FPrevFrame: IocvImage;
public
function DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; override;
end;
TocvLineType = (LT_FILLED, LT_8, LT_AA);
TocvDraw = class(TPersistent)
protected
procedure AssignTo(Dest: TPersistent); override;
function GetOwner: TPersistent; override;
private
FOwner: TPersistent;
FOffset: TocvPoint;
FEnabled: Boolean;
FThickness: Integer;
FLineType: TocvLineType;
FColor: TColor;
FShift: Integer;
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;
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: TocvPoint read FOffset write FOffset;
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; var 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 = class(TocvDraw)
published
property Color;
end;
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; var 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;
TocvHaarCascadeDraw = class(TocvDraw)
published
property Color;
property Shift;
end;
TocvHaarCascadeType = (hcEye, hcEyeTreeEyeGlasses, hcFrontalFaceAlt, hcFrontalFaceAlt2, hcFrontalFaceAltTree,
hcFrontalFaceDefaut, hcFullBody, hcLeftEye2Splits, hcLowerBody, hcMcsEyePairBig, hcMcsEyePairSmall, hcMcsLeftEar,
hcMcsLeftEye, hcMcsMouth, hcMcsNose, hcMcsRightEar, hcMcsRightEye, hcMcsUpperBody, hcProfileFace, hcRightEye2Splits, hcSmile,
hcUpperBody);
TocvHaarCascadeFlag = (HAAR_DO_CANNY_PRUNING, HAAR_SCALE_IMAGE, HAAR_FIND_BIGGEST_OBJECT, HAAR_DO_ROUGH_SEARCH);
TocvHaarCascadeFlagSet = set of TocvHaarCascadeFlag;
TocvHaarCascade = class(TocvCustomImageOperation)
private
FHaarCascade: TocvHaarCascadeType;
FLockFrontalFaceChange: TCriticalSection;
FCascade: pCvHaarClassifierCascade;
FMinSize: TocvPoint;
FMaxSize: TocvPoint;
FDrawHaarCascade: TocvHaarCascadeDraw;
FCascadeFlags: TocvHaarCascadeFlagSet;
FOnHaarCascade: TOnOcvHaarCascade;
FCustomHaarCascade: TFileName;
procedure SetHaarCascade(const Value: TocvHaarCascadeType);
procedure ReleaseCascade;
function GetHaarCascadeFlag: Integer;
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; var Destanation: IocvImage): Boolean; override;
published
property CustomHaarCascade: TFileName read FCustomHaarCascade write SetCustomHaarCascade;
property HaarCascade: TocvHaarCascadeType read FHaarCascade write SetHaarCascade default hcFrontalFaceAlt;
property Equalize: Boolean index 1 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: TocvPoint read FMinSize write FMinSize; // CV_DEFAULT(cvSize(0,0))
property MaxSize: TocvPoint 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 2 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: TocvPoint;
FContourDraw: TocvContourDraw;
FApprox: TocvContourApprox;
FOnContour: TOnOcvContour;
FContours: pCvSeq;
procedure DoNotifyContours(const Image: IocvImage; const ContourCount: Integer; const Contours: pCvSeq);
protected
public
constructor Create(AOwner: TPersistent); override;
destructor Destroy; override;
function DoTransform(const Source: IocvImage; var 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: TocvPoint 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;
FOnAfterPaint: TOnOcvAfterTransform;
FOnBeforePaint: TOnOcvBeforeTransform;
FOwner: TCollection;
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 DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean; virtual;
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;
procedure Assign(Source: TPersistent); override;
property OperationClass: TocvImageOperationClass read GetPropertiesClass write SetPropertiesClass;
function Transform(const Source: IocvImage; var Destanation: IocvImage): Boolean;
published
property OperationClassName: string read GetPropertiesClassName write SetPropertiesClassName;
property Operation: TocvCustomImageOperation read GetProperties write SetProperties;
property OnAfterPaint: TOnOcvAfterTransform read FOnAfterPaint write FOnAfterPaint;
property OnBeforePaint: TOnOcvBeforeTransform read FOnBeforePaint write FOnBeforePaint;
end;
TocvImageOperationCollection = class(TOwnedCollection);
TocvImageOperation = class(TocvDataSourceAndReceiver, IocvEditorPropertiesContainer)
private
CS: TCriticalSection;
FOperation: TocvCustomImageOperation;
FOperationClass: TocvImageOperationClass;
FOperations: TocvImageOperationCollection;
FUseCollection: Boolean;
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);
protected
procedure TakeImage(const IplImage: IocvImage); override;
function GetProperties: TocvCustomImageOperation;
function GetPropertiesClass: TocvImageOperationClass;
public
constructor Create(AOwner: TComponent); override;
destructor Destroy; 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;
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
///
// Run utils\CompressHaar\uCompressHaar.dpr
// Add to serarch path \Delphi-OpenCV\bin\facedetectxml\
///
{$R haarcascade.rc haarcascade.res}
{$R haarcascade.res}
Uses
core_c,
imgproc_c,
imgproc.types_c,
2014-05-19 13:05:37 +02:00
cvUtils;
type
TPersistentAccessProtected = class(TPersistent);
TocvHaarCascadeRecord = record
Name: String;
FileName: String;
end;
///
// Run utils\CompressHaar\uCompressHaar.dpr
// Add to serarch path \Delphi-OpenCV\bin\facedetectxml\
///
{$I haarcascade.inc}
Var
_RegisteredImageOperations: TRegisteredImageOperations = nil;
function GetRegisteredImageOperations: TRegisteredImageOperations;
begin
if not Assigned(_RegisteredImageOperations) then
_RegisteredImageOperations := TRegisteredImageOperations.Create;
Result := _RegisteredImageOperations;
end;
const
cLineType: array [TocvLineType] of Integer = (CV_FILLED, 8, CV_AA);
procedure GetRGBValue(const AColor: TColor; var r, g, b: byte);
Var
RGBColor: TColor;
begin
RGBColor := ColorToRGB(AColor);
r := GetRValue(RGBColor);
g := GetGValue(RGBColor);
b := GetBValue(RGBColor);
end;
{TocvImageOperation}
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;
i: Integer;
begin
if LockTransform then
try
Destanation := IplImage;
if OperationsEnabled and (FOperations.Count > 0) then
begin
for i := 0 to FOperations.Count - 1 do
if not(FOperations.Items[i] as TocvImageOperationCollectionItem).Transform(Destanation.Clone, Destanation) then
Exit;
end
else if Assigned(FOperation) then
FOperation.Transform(IplImage.Clone, Destanation);
NotifyReceiver(Destanation);
finally
Destanation := nil;
UnlockTransform;
end;
end;
procedure TocvImageOperation.UnlockTransform;
begin
CS.Leave;
end;
{TovcImageOperationCanny}
constructor TovcCannyOperation.Create {(AOwner: TPersistent)};
begin
inherited;
Threshold1 := 10;
Threshold2 := 100;
ApertureSize := 3;
end;
function TovcCannyOperation.DoTransform(const Source: IocvImage; var 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; var Destanation: IocvImage): Boolean;
begin
Destanation := Source.GrayImage;
Result := True;
end;
{TocvImageOperationNone}
function TocvNoneOperation.DoTransform(const Source: IocvImage; var 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; var 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
Transform: Boolean;
begin
Result := LockTransform;
if Result then
try
Transform := True;
if Assigned(OnBeforePaint) then
OnBeforePaint(Self, Source, Transform);
if Transform then
Result := DoTransform(Source, Destanation)
else
begin
Destanation := Source;
Result := True;
end;
if Result and Assigned(OnAfterPaint) then
OnAfterPaint(Self, Source);
finally
UnlockTransform;
end;
end;
procedure TocvCustomImageOperation.UnlockTransform;
begin
FCriticalSection.Leave;
end;
{TovcImageOperationSmooth}
Const
ocvSmoothOperations: array [TocvSmoothOperations] of Integer = (CV_BLUR_NO_SCALE, CV_BLUR, CV_GAUSSIAN, CV_MEDIAN,
CV_BILATERAL);
procedure TovcSmoothOperation.AssignTo(Dest: TPersistent);
begin
inherited;
if Dest is TovcSmoothOperation then
FSmoothOperation := (Dest as TovcSmoothOperation).FSmoothOperation;
end;
constructor TovcSmoothOperation.Create {(AOwner: TPersistent)};
begin
inherited;
FSmoothOperation := GAUSSIAN;
size1 := 3;
size2 := 3;
sigma1 := 0;
sigma2 := 0;
end;
procedure TovcSmoothOperation.SetSmoothOperation(const Value: TocvSmoothOperations);
begin
if LockTransform then
try
FSmoothOperation := Value;
finally
UnlockTransform;
end;
end;
function TovcSmoothOperation.DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean;
Var
Image: pIplImage;
begin
Image := cvCloneImage(Source.IpImage);
cvSmooth(Source.IpImage, Image, ocvSmoothOperations[SmoothOperation], size1, size2, sigma1, sigma2);
Destanation := TocvImage.Create(Image);
Result := True;
end;
{TRegisteredImageOperations}
function TRegisteredImageOperations.FindByClassName(const ClassName: String): TocvImageOperationClass;
Var
i: Integer;
begin
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;
{TovcCustomErodeDilate}
procedure TovcCustomErodeDilateOperation.AssignTo(Dest: TPersistent);
begin
inherited;
if Dest is TovcCustomErodeDilateOperation then
FMorphOp := (Dest as TovcCustomErodeDilateOperation).MorphOp;
end;
constructor TovcCustomErodeDilateOperation.Create {(AOwner: TComponent)};
begin
inherited;
Radius := 5;
Iterations := 5;
FMorphOp := SHAPE_RECT;
end;
procedure TovcCustomErodeDilateOperation.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);
{TovcErode}
function TovcErodeOperation.DoTransform(const Source: IocvImage; var 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;
{TovcDilate}
function TovcDilateOperation.DoTransform(const Source: IocvImage; var 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; var 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;
{TovcSobel}
constructor TovcSobelOperation.Create {(AOwner: TComponent)};
begin
inherited;
XOrder := 1;
YOrder := 1;
Aperture := 3;
end;
function TovcSobelOperation.DoTransform(const Source: IocvImage; var 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.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; var Destanation: IocvImage): Boolean;
begin
Result := Assigned(FOperation) and FOperation.DoTransform(Source, Destanation);
end;
function TocvImageOperationCollectionItem.Transform(const Source: IocvImage; var Destanation: IocvImage): Boolean;
Var
Transform: Boolean;
begin
Result := LockTransform;
if Result then
try
Transform := True;
if Assigned(OnBeforePaint) then
OnBeforePaint(Self, Source, Transform);
if Transform then
Result := DoTransform(Source, Destanation)
else
begin
Destanation := Source;
Result := True;
end;
if Result and Assigned(OnAfterPaint) then
OnAfterPaint(Self, Source);
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; var 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; var 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 := TocvPoint.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; var 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
FCustomCenter := (Dest as TocvRotateOperation).FCustomCenter;
FMethod := (Dest as TocvRotateOperation).FMethod;
FWarpingFlag := (Dest as TocvRotateOperation).FWarpingFlag;
FScale := (Dest as TocvRotateOperation).FScale;
end;
end;
constructor TocvRotateOperation.Create(AOwner: TPersistent);
begin
inherited;
Angle := 90;
FCustomCenter := TocvPoint.Create;
RotateAroundCenter := True;
Method := INTER_LINEAR;
WarpingFlag := [WARP_FILL_OUTLIERS];
Scale := 1;
end;
destructor TocvRotateOperation.Destroy;
begin
FCustomCenter.Free;
inherited;
end;
function TocvRotateOperation.DoTransform(const Source: IocvImage; var Destanation: IocvImage): Boolean;
Var
rot_mat: pCvMat;
center: 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
center.X := Source.IpImage^.width div 2;
center.Y := Source.IpImage^.height div 2;
end
else
begin
center.X := CustomCenter.X;
center.Y := CustomCenter.Y;
end;
cv2DRotationMatrix(center, 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, cvScalarAll(0));
cvReleaseMat(rot_mat);
Destanation := TocvImage.Create(D);
Result := True;
end;
{TPersistentPoint}
procedure TocvPoint.AssignTo(Dest: TPersistent);
begin
inherited;
if Dest is TocvPoint then
FPoint := (Dest as TocvPoint).FPoint;
end;
{TocvCountourDraw}
procedure TocvDraw.AssignTo(Dest: TPersistent);
begin
inherited;
if Dest is TocvDraw then
begin
FOffset.FPoint := (Dest as TocvDraw).FOffset.FPoint;
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 := TocvPoint.Create;
FEnabled := True;
FThickness := 1;
FLineType := LT_AA;
FColor := clGreen;
FShift := 0;
end;
destructor TocvDraw.Destroy;
begin
FOffset.Free;
inherited;
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; var 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 := TocvPoint.Create(30, 30);
FMaxSize := TocvPoint.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; var Destanation: IocvImage): Boolean;
Var
storage: pCvMemStorage;
gray: IocvImage;
detected_objects: pCvSeq;
i: Integer;
cvr: pCvRect;
r, g, b: byte;
Faces: TocvRects;
begin
Destanation := Source;
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
if Assigned(OnHaarCascade) and ((not NotifyOnlyWhenFound) or (detected_objects^.total > 0)) then
begin
SetLength(Faces, detected_objects^.total);
i := 0;
While i < detected_objects^.total do
begin
cvr := pCvRect(cvGetSeqElem(detected_objects, i));
Faces[i] := ocvRect(cvr^.X, cvr^.Y, (cvr^.X) + (cvr^.width), (cvr^.Y) + (cvr^.height));
Inc(i);
end;
OnHaarCascade(Self, Destanation, Faces);
end;
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;
function TocvHaarCascade.GetHaarCascadeFlag: Integer;
Var
i: TocvHaarCascadeFlag;
j: Integer;
begin
Result := 0;
j := 1;
for i := HAAR_DO_CANNY_PRUNING to HAAR_DO_ROUGH_SEARCH do
begin
if i in FCascadeFlags then
Result := Result or j;
j := j * 2;
end;
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
if not Assigned(FCascade) then
try
FullFileName := TempPath + FrontalFaceXML[FHaarCascade].FileName;
if not FileExists(FullFileName) then
begin
RS := TResourceStream.Create(hInstance, FrontalFaceXML[FHaarCascade].Name, RT_RCDATA);
DC := TZDecompressionStream.Create(RS);
FS := TFileStream.Create(FullFileName, fmCreate);
try
FS.CopyFrom(DC, DC.Size);
finally
DC.Free;
FS.Free;
RS.Free;
end;
end;
DoLoadHaarCascade(FullFileName);
except
ReleaseCascade;
end;
end;
finally
FLockFrontalFaceChange.Leave;
end;
end;
constructor TocvPoint.Create(const AX, AY: Integer);
begin
FPoint.X := AX;
FPoint.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; var 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;
end;
destructor TocvMotionDetect.Destroy;
begin
FDrawMotionRect.Free;
inherited;
end;
function TocvMotionDetect.DoTransform(const Source: IocvImage; var 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;
initialization
GetRegisteredImageOperations.RegisterIOClass(TocvNoneOperation, 'None');
GetRegisteredImageOperations.RegisterIOClass(TocvGrayScaleOperation, 'GrayScale');
GetRegisteredImageOperations.RegisterIOClass(TovcCannyOperation, 'Canny');
GetRegisteredImageOperations.RegisterIOClass(TovcSmoothOperation, 'Smooth');
GetRegisteredImageOperations.RegisterIOClass(TovcErodeOperation, 'Erode');
GetRegisteredImageOperations.RegisterIOClass(TovcDilateOperation, 'Dilate');
GetRegisteredImageOperations.RegisterIOClass(TocvLaplaceOperation, 'Laplace');
GetRegisteredImageOperations.RegisterIOClass(TovcSobelOperation, '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');
finalization
if Assigned(_RegisteredImageOperations) then
FreeAndNil(_RegisteredImageOperations);
end.