mirror of
https://github.com/Laex/Delphi-OpenCV.git
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3ae4ef8956
[*] Rename files of: - Calib3d.pas in calib3d_s.pas - Tracking.pas in tracking_s.pas To ensure conformity with the file names OpenCV library [!] Modules used in the project without the inclusion of relative paths. Added instructions on how to add the module search path (see readme_en.txt) [+] Added an example Posit (cvReleasePOSITObject, cvPOSIT and others) (thanks to Frans van Daalen (CLubfitter73)) Signed-off-by: Laex <laex@bk.ru>
166 lines
6.4 KiB
ObjectPascal
166 lines
6.4 KiB
ObjectPascal
(* /*****************************************************************
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// Delphi-OpenCV Demo
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// Copyright (C) 2013 Project Delphi-OpenCV
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// ****************************************************************
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// Contributor:
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// Frans van Daalen (CLubfitter73)
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// email: clubfitter73@gmail.com
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// ****************************************************************
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// You may retrieve the latest version of this file at the GitHub,
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// located at git://github.com/Laex/Delphi-OpenCV.git
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// ****************************************************************
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// The contents of this file are used with permission, subject to
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// the Mozilla Public License Version 1.1 (the "License"); you may
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// not use this file except in compliance with the License. You may
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// obtain a copy of the License at
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// http://www.mozilla.org/MPL/MPL-1_1Final.html
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//
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// Software distributed under the License is distributed on an
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// "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
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// implied. See the License for the specific language governing
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// rights and limitations under the License.
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******************************************************************* *)
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program Posit;
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{$APPTYPE CONSOLE}
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{$POINTERMATH ON}
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{$R *.res}
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uses
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System.SysUtils,
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System.Math,
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highgui_c,
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core_c,
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Core.types_c,
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imgproc_c,
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imgproc.types_c,
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calib3d_c,
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compat;
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Var
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P: Integer;
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PositObject: PCvPOSITObject;
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ModelPoints: pCvPoint3D32f;
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SrcImagePoints: pCvPoint2D32f;
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Cube_Size: Single = 10;
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focal_length: double = 1000;
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flEpsilon: double;
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criteria: TCvTermCriteria;
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rotation_matrix: TCvMatr32f;
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translation_vector: TCvVect32f;
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ProjectedPoints: pCvPoint2D32f;
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Point3D: TcvPoint3D32f;
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Point2D: TcvPoint2D32f;
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img: pIplImage;
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centreX, centreY: Integer;
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begin
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try
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// Create the model points
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// the first must be (0,0,0)
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ModelPoints := AllocMem(SizeOf(TcvPoint3D32f) * 4);
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ModelPoints[0].x := 0.0;
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ModelPoints[0].y := 0.0;
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ModelPoints[0].z := 0.0;
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//
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ModelPoints[1].x := 0.0;
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ModelPoints[1].y := 0.0;
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ModelPoints[1].z := Cube_Size;
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//
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ModelPoints[2].x := Cube_Size;
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ModelPoints[2].y := 0.0;
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ModelPoints[2].z := 0.0;
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//
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ModelPoints[3].x := 0.0;
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ModelPoints[3].y := Cube_Size;
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ModelPoints[3].z := 0.0;
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// Create the image points
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SrcImagePoints := AllocMem(SizeOf(TcvPoint2D32f) * 4);
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SrcImagePoints[0].x := -48;
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SrcImagePoints[0].y := -224;
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//
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SrcImagePoints[1].x := -287;
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SrcImagePoints[1].y := -174;
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//
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SrcImagePoints[2].x := 132;
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SrcImagePoints[2].y := -153;
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//
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SrcImagePoints[3].x := -52;
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SrcImagePoints[3].y := 149;
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// Create The POSIT object with the model points
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PositObject := cvCreatePOSITObject(ModelPoints, 4);
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// Estimate the pose
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rotation_matrix := AllocMem(SizeOf(PSingle) * 9);
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translation_vector := AllocMem(SizeOf(PSingle) * 3);
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criteria := cvTermCriteria(CV_TERMCRIT_EPS or CV_TERMCRIT_ITER, 100, flEpsilon);
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cvPOSIT(PositObject, SrcImagePoints, focal_length, criteria, rotation_matrix, translation_vector);
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writeln('-.- SOURCE MODEL POINTS -.-');
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for P := 0 to 3 do
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writeln(format('%.0f, %.0f, %.0f', [ModelPoints[P].x, ModelPoints[P].y, ModelPoints[P].z]));
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writeln(#13#10 + '-.- SOURCE IMAGE POINTS -.-');
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for P := 0 to 3 do
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writeln(format('%.0f, %.0f', [SrcImagePoints[P].x, SrcImagePoints[P].y]));
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writeln(#13#10 + '-.- ESTIMATED ROTATION -.-');
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for P := 0 to 2 do
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writeln(format('%.8f | %.8f | %.8f', [rotation_matrix[P * 3], rotation_matrix[P * 3 + 1],
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rotation_matrix[P * 3 + 2]]));
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writeln(#13#10 + '-.- ESTIMATED TRANSLATION -.-');
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writeln(format('%.8f | %.8f | %.8f', [translation_vector[0], translation_vector[1], translation_vector[2]]));
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// Project the model points with the estimated pose
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ProjectedPoints := AllocMem(SizeOf(TcvPoint2D32f) * 4);
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for P := 0 to 3 do
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Begin
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Point3D.x := rotation_matrix[0] * ModelPoints[P].x + rotation_matrix[1] * ModelPoints[P].y + rotation_matrix[2] *
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ModelPoints[P].z + translation_vector[0];
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Point3D.y := rotation_matrix[3] * ModelPoints[P].x + rotation_matrix[4] * ModelPoints[P].y + rotation_matrix[5] *
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ModelPoints[P].z + translation_vector[1];
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Point3D.z := rotation_matrix[6] * ModelPoints[P].x + rotation_matrix[7] * ModelPoints[P].y + rotation_matrix[8] *
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ModelPoints[P].z + translation_vector[2];
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Point2D := cvPoint2D32f(0.0, 0.0);
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if Not IsZero(Point3D.z) then
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Begin
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Point2D.x := focal_length * Point3D.x / Point3D.z;
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Point2D.y := focal_length * Point3D.y / Point3D.z;
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End;
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ProjectedPoints[P] := cvPoint2D32f(Point2D.x, Point2D.y);
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End;
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img := cvLoadImage('resource\cv_posit.jpg');
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if not Assigned(img) then
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Begin
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writeln('Image not loaded!');
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halt;
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End;
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centreX := round(img.width * 0.5);
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centreY := round(img.height * 0.5);
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// Draw the source image points;
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for P := 0 to 3 do
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cvCircle(img, cvPoint(centreX + round(SrcImagePoints[P].x), centreY - round(SrcImagePoints[P].y)), 8,
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CV_RGB(255, 0, 0));
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// Draw the axes
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cvLine(img, cvPoint(centreX + round(ProjectedPoints[0].x), centreY - round(ProjectedPoints[0].y)),
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cvPoint(centreX + round(ProjectedPoints[1].x), centreY - round(ProjectedPoints[1].y)), CV_RGB(0, 0, 255), 2);
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cvLine(img, cvPoint(centreX + round(ProjectedPoints[0].x), centreY - round(ProjectedPoints[0].y)),
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cvPoint(centreX + round(ProjectedPoints[2].x), centreY - round(ProjectedPoints[2].y)), CV_RGB(255, 0, 0), 2);
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cvLine(img, cvPoint(centreX + round(ProjectedPoints[0].x), centreY - round(ProjectedPoints[0].y)),
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cvPoint(centreX + round(ProjectedPoints[3].x), centreY - round(ProjectedPoints[3].y)), CV_RGB(0, 255, 0), 2);
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// Draw the projected model points
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writeln(#13#10 + '-.- ESTIMATED IMAGE POINTS -.-');
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for P := 0 to 3 do
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begin
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cvCircle(img, cvPoint(centreX + round(ProjectedPoints[P].x), centreY - round(ProjectedPoints[P].y)), 3,
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CV_RGB(255, 255, 255), -1);
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writeln(format('%.3f, %.3f', [ProjectedPoints[P].x, ProjectedPoints[P].y]));
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end;
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cvNamedWindow('Posit');
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cvShowImage('Posit', img);
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cvWaitKey();
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cvReleasePOSITObject(PositObject);
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cvReleaseImage(img);
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cvDestroyAllWindows;
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except
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on E: Exception do
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writeln(E.ClassName, ': ', E.Message);
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end;
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end.
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