mirror of
https://github.com/Laex/Delphi-OpenCV.git
synced 2024-11-18 01:05:53 +01:00
7edf1d9684
Signed-off-by: Laentir Valetov <laex@bk.ru>
430 lines
14 KiB
ObjectPascal
430 lines
14 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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// laentir Valetov
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// email:laex@bk.ru
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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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// Original file:
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// http://blog.vidikon.com/?p=213
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// ***************************************************************
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program cv_ExtractSURF;
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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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Winapi.Windows,
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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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compat,
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calib3d_c,
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nonfree,
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uResourcePaths;
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// cðàâíåíèå äâóõ îcîáåííîcòåé
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// comparison of the two features
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function compareSURFDescriptors(const d1: PSingle; const d2: PSingle; best: Double; length: Integer): Double;
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var
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total_cost: Double;
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i: Integer;
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t0, t1, t2, t3: Double;
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begin
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total_cost := 0;
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assert(length mod 4 = 0);
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i := 0;
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While i < length - 1 do
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begin
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t0 := d1[i] - d2[i];
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t1 := d1[i + 1] - d2[i + 1];
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t2 := d1[i + 2] - d2[i + 2];
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t3 := d1[i + 3] - d2[i + 3];
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total_cost := total_cost + t0 * t0 + t1 * t1 + t2 * t2 + t3 * t3;
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if (total_cost > best) then
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break;
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i := i + 4;
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end;
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result := total_cost;
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end;
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// cðàâíèâàåò îäíó îcîáåííîcòü îáúåêòà cî âcåìè îcîáåííîcòÿìè cöåíû
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// compares one feature of the scene with all the features
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function naiveNearestNeighbor(const vec: PSingle; laplacian: Integer; const model_keypoints: pCvSeq;
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const model_descriptors: pCvSeq): Integer;
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Var
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length, i, neighbor: Integer;
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d, dist1, dist2: Double;
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reader, kreader: TCvSeqReader;
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kp: pCvSURFPoint;
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mvec: PSingle;
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begin
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length := model_descriptors.elem_size div sizeof(single);
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neighbor := -1;
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dist1 := 1E6;
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dist2 := 1E6;;
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// Íà÷àëüíàÿ îcîáåííîcòü cöåíû
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// The initial feature scenes
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cvStartReadSeq(model_keypoints, @kreader, 0);
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cvStartReadSeq(model_descriptors, @reader, 0);
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// Ïåðåáîð âcåõ îcîáåííîcòåé cöåíû
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// Iterating through all features of the scene
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for i := 0 to model_descriptors.total - 1 do
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begin
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kp := pCvSURFPoint(kreader.ptr);
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mvec := PSingle(reader.ptr);
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CV_NEXT_SEQ_ELEM(kreader.seq.elem_size, kreader);
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CV_NEXT_SEQ_ELEM(reader.seq.elem_size, reader);
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// Äëÿ ócêîðåíèÿ cíà÷àëà cðàâíèâàåòcÿ ëàïëccèàí îcîáåííîcòåé
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// To accelerate the first compared Laplacian features
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if (laplacian <> kp.laplacian) then
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continue;
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// cðàâíåíèå îcîáåííîcòåé
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// comparison of the features
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d := compareSURFDescriptors(vec, mvec, dist2, length);
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if (d < dist1) then
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begin
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// Íàéäåíà ëó÷øåå cîâïàäåíèå îcîáåííîcòåé
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// Found a better match features
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dist2 := dist1;
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dist1 := d;
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neighbor := i;
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end
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else if (d < dist2) then
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dist2 := d;
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end;
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if (dist1 < 0.6 * dist2) then
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Exit(neighbor);
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result := -1;
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end;
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// Ôóíêöèÿ èùåò cîâïàäàþùèå ïàðû
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// Function searches for matching pairs
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procedure findPairs(const objectKeypoints: pCvSeq; const objectDescriptors: pCvSeq; const imageKeypoints: pCvSeq;
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const imageDescriptors: pCvSeq; Var ptpairs: TArray<Integer>);
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var
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i: Integer;
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reader, kreader: TCvSeqReader;
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kp: pCvSURFPoint;
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descriptor: PSingle;
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nearest_neighbor: Integer;
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begin
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// Ócòàíîâêà íà÷àëüíîé îcîáåííîcòè îáúåêòà ðccïîçíàâàíèÿ
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// Sets the initial features of object recognition
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cvStartReadSeq(objectKeypoints, @kreader);
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cvStartReadSeq(objectDescriptors, @reader);
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SetLength(ptpairs, 0);
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// Ïåðåáîð âcåõ îcîáåííîcòåòåé îáúåêòà
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// Iterating through all features of the object
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for i := 0 to objectDescriptors.total - 1 do
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begin
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kp := pCvSURFPoint(kreader.ptr);
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descriptor := PSingle(reader.ptr);
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CV_NEXT_SEQ_ELEM(kreader.seq.elem_size, kreader);
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CV_NEXT_SEQ_ELEM(reader.seq.elem_size, reader);
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// cðàâíåíèå òåêóùåé îcîáåííîcòè cî âcåìè îcîáåííîcòÿìè èç cöåíû
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// comparison of the current features with all the features of the scene
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nearest_neighbor := naiveNearestNeighbor(descriptor, kp.laplacian, imageKeypoints, imageDescriptors);
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if (nearest_neighbor >= 0) then
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begin
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// Íàøëîcü cîâïàäåíèå îcîáåííîcòåé
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// Match the features found
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SetLength(ptpairs, length(ptpairs) + 2);
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ptpairs[High(ptpairs) - 1] := i;
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ptpairs[High(ptpairs)] := nearest_neighbor;
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end;
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end;
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end;
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// Ãðóáîå íàõîæäåíèå ìåcòîïîëîæåíèÿ îáúåêòà
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// Finding rough position of the object
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function locatePlanarObject(const objectKeypoints: pCvSeq; const objectDescriptors: pCvSeq; const imageKeypoints: pCvSeq;
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const imageDescriptors: pCvSeq; const src_corners: TArray<TCvPoint>; dst_corners: TArray<TCvPoint>): Integer;
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var
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h: array [0 .. 8] of Double;
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_h: TCvMat;
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ptpairs: TArray<Integer>;
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pt1, pt2: TArray<TCvPoint2D32f>;
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_pt1, _pt2: TCvMat;
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i, n: Integer;
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x, y, _Z, _X, _Y: Double;
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begin
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_h := cvMat(3, 3, CV_64F, @h);
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// Èùåì ïàðû îcîáåííîcòåé íà îáåèõ êàðòèíêàõ, êîòîðûå cîîòâåòcòâóþò äðóã äðóãó
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// We are looking for a pair of features on each image that correspond to each other
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findPairs(objectKeypoints, objectDescriptors, imageKeypoints, imageDescriptors, ptpairs);
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n := length(ptpairs) div 2;
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// Åcëè ïàð ìàëî, çíà÷èò íàäî âûõîäèòü – îáúåêò íå íàéäåí
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// If found little pair, then have to go - object not found
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if (n < 4) then
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Exit(0);
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// Âûäåëÿåì ïàìÿòü
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SetLength(pt1, n);
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SetLength(pt2, n);
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// c÷èòûâàåì êîîðäèíàòû «îcîáûõ»òî÷åê
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// read the coordinates of the "singular" points
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for i := 0 to n - 1 do
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begin
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pt1[i] := pCvSURFPoint(cvGetSeqElem(objectKeypoints, ptpairs[i * 2])).pt;
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pt2[i] := pCvSURFPoint(cvGetSeqElem(imageKeypoints, ptpairs[i * 2 + 1])).pt;
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end;
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// Ïî ïîëó÷åííûì âåêòîðàì cîçäà¸ì ìàòðèö
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// Using computed vectors - creating a matrix
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_pt1 := cvMat(1, n, CV_32FC2, @pt1[0]);
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_pt2 := cvMat(1, n, CV_32FC2, @pt2[0]);
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// Íàõîäèì òðàícôîðìàöèþ ìåæäó ècõîäíûì èçîáðàæåíèåì è c òåì, êîòîðîå èùåì
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// Find the transformation between the original image and the fact that looking
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if (cvFindHomography(@_pt1, @_pt2, @_h, CV_RANSAC, 5) = 0) then
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Exit(0);
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// Ïî ïîëó÷åííîìó çíà÷åíèþ òðàícôîðìàöèè (â ìàòðèöó _h) íàõîäèì
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// êîîðäèíàòû ÷åòûð¸õóãîëüíèêà, õàðàêòåðèçóþùåãî îáúåêò
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// Using the values transformation (in the matrix _h) find
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// the coordinates of a quadrilateral, indicative of the object
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for i := 0 to 3 do
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begin
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x := src_corners[i].x;
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y := src_corners[i].y;
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_Z := 1. / (h[6] * x + h[7] * y + h[8]);
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_X := (h[0] * x + h[1] * y + h[2]) * _Z;
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_Y := (h[3] * x + h[4] * y + h[5]) * _Z;
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dst_corners[i] := cvPoint(cvRound(_X), cvRound(_Y));
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end;
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Exit(1);
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end;
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Var
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object_filename, scene_filename: AnsiString;
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storage: pCvMemStorage;
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colors: array [0 .. 8] of TCvScalar = (
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(
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val:
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(
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0,
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0,
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255,
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0
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)
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),
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(
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val:
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(
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0,
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128,
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255,
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0
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)
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),
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(
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val:
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(
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0,
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255,
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255,
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0
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)
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),
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(
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val:
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(
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0,
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255,
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0,
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0
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)
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),
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(
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val:
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(
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255,
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128,
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0,
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0
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)
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),
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(
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val:
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(
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255,
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255,
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0,
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0
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)
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),
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(
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val:
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(
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255,
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0,
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0,
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0
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)
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),
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(
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val:
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(
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255,
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0,
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255,
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0
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)
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),
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(
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val:
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(
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255,
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255,
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255,
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0
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)
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)
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);
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_object, image, object_color: pIplImage;
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objectKeypoints, objectDescriptors, imageKeypoints, imageDescriptors: pCvSeq;
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i: Integer;
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params: TCvSURFParams;
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tt: Double;
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src_corners, dst_corners: TArray<TCvPoint>;
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correspond: pIplImage;
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r1, r2: TCvPoint;
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ptpairs: TArray<Integer>;
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_r1, _r2: pCvSURFPoint;
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r: pCvSURFPoint;
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center: TCvPoint;
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radius: Integer;
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begin
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try
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initModule_nonfree;
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// Èíèöèàëèçàöèÿ ïàðàìåòðîâ
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// initialization parameters
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object_filename := iif(ParamCount = 2, ParamStr(1), cResourceMedia + 'box.png');
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scene_filename := iif(ParamCount = 2, ParamStr(2), cResourceMedia + 'box_in_scene.png');
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storage := cvCreateMemStorage(0);
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cvNamedWindow('Object', 1);
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cvNamedWindow('Object Correspond', 1);
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// Çàãðóçêà èçîáðàæåíèé
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// Loading Images
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_object := cvLoadImage(pcvChar(@object_filename[1]), CV_LOAD_IMAGE_GRAYSCALE);
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image := cvLoadImage(pcvChar(@scene_filename[1]), CV_LOAD_IMAGE_GRAYSCALE);
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if (not Assigned(_object)) or (not Assigned(image)) then
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begin
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WriteLn(Format('Can not load %s and/or %s', [object_filename, scene_filename]));
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WriteLn('Usage: find_obj [<object_filename> <scene_filename>]');
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Halt;
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end;
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// Ïåðåâîä â ãðàäàöèè cåðîãî
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// Translation grayscale
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object_color := cvCreateImage(cvGetSize(_object), 8, 3);
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cvCvtColor(_object, object_color, CV_GRAY2BGR);
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// Èíèöèàëèçàöèÿ còðóêòóðû CvSURFParams c ðàçìåðîì äåcêðèïòîðîâ â 128 ýëåìåíòîâ
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// Initialization of the structure CvSURFParams c size descriptors 128 items
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params := CvSURFParams(500, 1);
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// Çàcåêàåì âðåìÿ
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// note the time
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tt := cvGetTickCount();
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// Èùåì îcîáåííîcòè îáúåêòà ðccïîçíàâàíèÿ
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// We are looking for particular object recognition
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cvExtractSURF(_object, nil, @objectKeypoints, @objectDescriptors, storage, params);
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WriteLn(Format('Object Descriptors: %d', [objectDescriptors.total]));
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// Èùåì îcîáåííîcòè cöåíû
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// We are looking for particular scenes
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cvExtractSURF(image, nil, @imageKeypoints, @imageDescriptors, storage, params);
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WriteLn(Format('Image Descriptors: %d', [imageDescriptors.total]));
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// cêîëüêî ïîòðåáîâàëîcü âðåìåíè (Ó ìåíÿ 167 ìèëëè cåêóíä)
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// how long it took (I 167 milliseconds)
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tt := cvGetTickCount() - tt;
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WriteLn(Format('Extraction time = %gms', [tt / (cvGetTickFrequency() * 1000)]));
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// Ócòàíàâëèâàåì ãðàíèöû èçîáðàæåíèé, âíóòðè êîòîðûõ áóäóò cðàâíèâàòücÿ îcîáåííîcòè
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// Set the image borders, within which features will be compared
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SetLength(src_corners, 4);
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src_corners[0] := cvPoint(0, 0);
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src_corners[1] := cvPoint(_object.width, 0);
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src_corners[2] := cvPoint(_object.width, _object.height);
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src_corners[3] := cvPoint(0, _object.height);
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SetLength(dst_corners, 4);
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// cîçäàíèå äîïîëíèòåëüíîãî èçîáðàæåíèå (â í¸ì áóäåò cöåíà è îáúåêò)
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// Çàïócòèòå ïðèìåð è ïîéì¸òå î ÷¸ì ðå÷ü
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// creation of an additional image (it will be a scene and object)
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// Run the example and you will understand what I mean
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correspond := cvCreateImage(cvSize(image.width, _object.height + image.height), 8, 1);
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cvSetImageROI(correspond, cvRect(0, 0, _object.width, _object.height));
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cvCopy(_object, correspond);
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cvSetImageROI(correspond, cvRect(0, _object.height, correspond.width, correspond.height));
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cvCopy(image, correspond);
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cvResetImageROI(correspond);
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// Âûçûâàåì ôóíêöèþ, íàõîäÿùóþ îáúåêò íà ýêðàíå
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// Call the function that retrieves the object on the screen
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if (locatePlanarObject(objectKeypoints, objectDescriptors, imageKeypoints, imageDescriptors, src_corners, dst_corners) <> 0)
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then
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begin
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// Îáâîäèì íóæíûé ÷åòûð¸õóãîëüíèê
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// Draw out the desired quadrangle
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for i := 0 to 3 do
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begin
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r1 := dst_corners[i mod 4];
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r2 := dst_corners[(i + 1) mod 4];
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cvLine(correspond, cvPoint(r1.x, r1.y + _object.height), cvPoint(r2.x, r2.y + _object.height), colors[8]);
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end;
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end;
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// Åcëè â ýòîì ìåcòå âûâåcòè ðåçóëüòàò íà ýêðàí, òî ïîëó÷èòücÿ òî, ÷òî ïîêàçàíî íà ðècóíêå 23.3.
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// cíîâà èùóòcÿ âcå cîâïàäàþùèå ïàðû îcîáåííîcòåé â îáåèõ êàðòèíêàõ
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// again finds all the matching pairs of features in both pictures
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findPairs(objectKeypoints, objectDescriptors, imageKeypoints, imageDescriptors, ptpairs);
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// Ìåæäó ïàðàìè îcîáåííîcòåé íà ðècóíêå ïðîâîäÿòcÿ ïðÿìûå
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// Between pairs of features in the figure are held straight
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i := 0;
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While i < length(ptpairs) do
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begin
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_r1 := pCvSURFPoint(cvGetSeqElem(objectKeypoints, ptpairs[i]));
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_r2 := pCvSURFPoint(cvGetSeqElem(imageKeypoints, ptpairs[i + 1]));
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cvLine(correspond, cvPointFrom32f(_r1.pt), cvPoint(cvRound(_r2.pt.x), cvRound(_r2.pt.y + _object.height)), colors[8]);
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i := i + 2;
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end;
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// Ðåçóëüòàò ìîæíî ïîcìîòðåòü íà ðècíóêå 23.4.
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||
cvShowImage('Object Correspond', correspond);
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||
// Âûäåëÿåì îcîáåííîcòèî îêðóæíîcòÿìè (Ðèc. 23.5)
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||
// Highlight features of circles
|
||
for i := 0 to objectKeypoints.total - 1 do
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||
begin
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||
r := pCvSURFPoint(cvGetSeqElem(objectKeypoints, i));
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||
center.x := cvRound(r.pt.x);
|
||
center.y := cvRound(r.pt.y);
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||
radius := cvRound(r.size * 1.2 / 9 * 2);
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||
cvCircle(object_color, center, radius, colors[0], 1, 8, 0);
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||
end;
|
||
cvShowImage('Object', object_color);
|
||
cvWaitKey(0);
|
||
cvDestroyAllWindows;
|
||
except
|
||
on E: Exception do
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||
WriteLn(E.ClassName, ': ', E.Message);
|
||
end;
|
||
|
||
end.
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