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502 lines
14 KiB
C++
502 lines
14 KiB
C++
/*M///////////////////////////////////////////////////////////////////////////////////////
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//
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// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
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//
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// By downloading, copying, installing or using the software you agree to this license.
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// If you do not agree to this license, do not download, install,
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// copy or use the software.
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//
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//
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// Intel License Agreement
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// For Open Source Computer Vision Library
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//
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// Copyright (C) 2000, Intel Corporation, all rights reserved.
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// Third party copyrights are property of their respective owners.
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//
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// Redistribution and use in source and binary forms, with or without modification,
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// are permitted provided that the following conditions are met:
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//
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// * Redistribution's of source code must retain the above copyright notice,
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// this list of conditions and the following disclaimer.
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//
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// * Redistribution's in binary form must reproduce the above copyright notice,
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// this list of conditions and the following disclaimer in the documentation
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// and/or other materials provided with the distribution.
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//
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// * The name of Intel Corporation may not be used to endorse or promote products
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// derived from this software without specific prior written permission.
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//
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// This software is provided by the copyright holders and contributors "as is" and
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// any express or implied warranties, including, but not limited to, the implied
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// warranties of merchantability and fitness for a particular purpose are disclaimed.
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// In no event shall the Intel Corporation or contributors be liable for any direct,
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// indirect, incidental, special, exemplary, or consequential damages
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// (including, but not limited to, procurement of substitute goods or services;
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// loss of use, data, or profits; or business interruption) however caused
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// and on any theory of liability, whether in contract, strict liability,
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// or tort (including negligence or otherwise) arising in any way out of
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// the use of this software, even if advised of the possibility of such damage.
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//
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//M*/
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///////////////////////////////////////////////
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//// Created by Khudyakov V.A. bober@gorodok.net
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//////////////////////////////////////////////
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// FaceDetection.cpp: implementation of the FaceDetection class.
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//
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//////////////////////////////////////////////////////////////////////
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#include "precomp.hpp"
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#include "_facedetection.h"
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int CV_CDECL CompareContourRect(const void* el1, const void* el2, void* userdata);
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//////////////////////////////////////////////////////////////////////
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// Construction/Destruction
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//////////////////////////////////////////////////////////////////////
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FaceDetection::FaceDetection()
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{
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m_imgGray = NULL;
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m_imgThresh = NULL;
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m_mstgContours = NULL;
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memset(m_seqContours, 0, sizeof(CvSeq*) * MAX_LAYERS);
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m_mstgRects = NULL;
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m_seqRects = NULL;
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m_iNumLayers = 16;
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assert(m_iNumLayers <= MAX_LAYERS);
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m_pFaceList = new FaceDetectionList();
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m_bBoosting = false;
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}// FaceDetection()
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FaceDetection::~FaceDetection()
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{
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if (m_imgGray)
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cvReleaseImage(&m_imgGray);
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if (m_imgThresh)
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cvReleaseImage(&m_imgThresh);
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if (m_mstgContours)
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cvReleaseMemStorage(&m_mstgContours);
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if (m_mstgRects)
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cvReleaseMemStorage(&m_mstgRects);
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}// ~FaceDetection()
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void FaceDetection::FindContours(IplImage* imgGray)
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{
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ReallocImage(&m_imgThresh, cvGetSize(imgGray), 1);
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if (NULL == m_imgThresh)
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return;
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//
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int iNumLayers = m_iNumLayers;
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int iMinLevel = 0, iMaxLevel = 255, iStep = 255 / iNumLayers;
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ThresholdingParam(imgGray, iNumLayers, iMinLevel, iMaxLevel, iStep);
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// init
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cvReleaseMemStorage(&m_mstgContours);
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m_mstgContours = cvCreateMemStorage();
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if (NULL == m_mstgContours)
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return;
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memset(m_seqContours, 0, sizeof(CvSeq*) * MAX_LAYERS);
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cvReleaseMemStorage(&m_mstgRects);
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m_mstgRects = cvCreateMemStorage();
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if (NULL == m_mstgRects)
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return;
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m_seqRects = cvCreateSeq(0, sizeof(CvSeq), sizeof(CvContourRect), m_mstgRects);
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if (NULL == m_seqRects)
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return;
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// find contours
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for (int l = iMinLevel, i = 0; l < iMaxLevel; l += iStep, i++)
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{
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cvThreshold(imgGray, m_imgThresh, (double)l, (double)255, CV_THRESH_BINARY);
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if (cvFindContours(m_imgThresh, m_mstgContours, &m_seqContours[i], sizeof(CvContour), CV_RETR_CCOMP, CV_CHAIN_APPROX_SIMPLE))
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AddContours2Rect(m_seqContours[i], l, i);
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}
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// sort rects
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cvSeqSort(m_seqRects, CompareContourRect, NULL);
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}// void FaceDetection::FindContours(IplImage* imgGray)
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#define GIST_STEP 10
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#define GIST_NUM (256 / GIST_STEP)
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#define GIST_MIN 32
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void FaceDetection::ThresholdingParam(IplImage *imgGray, int iNumLayers, int &iMinLevel, int &iMaxLevel, int &iStep)
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{
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assert(imgGray != NULL);
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assert(imgGray->nChannels == 1);
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int i, j;
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// create gistogramm
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uchar* buffImg = (uchar*)imgGray->imageData;
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int gistImg[GIST_NUM + 1] = {0};
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for (j = 0; j < imgGray->height; j ++)
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{
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for (i = 0; i < imgGray->width; i ++)
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{
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int ind = buffImg[i] / GIST_STEP;
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gistImg[ind] ++;
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}
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buffImg += imgGray->widthStep;
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}
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// params
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for (i = 0; i <= GIST_NUM; i ++)
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{
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if (gistImg[i] >= GIST_MIN)
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break;
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}
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iMinLevel = i * GIST_STEP;
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for (i = GIST_NUM; i >= 0; i --)
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{
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if (gistImg[i] >= GIST_MIN)
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break;
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}
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iMaxLevel = i * GIST_STEP;
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int dLevels = iMaxLevel - iMinLevel;
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if (dLevels <= 0)
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{
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iMinLevel = 0;
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iMaxLevel = 255;
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}
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else if (dLevels <= iNumLayers)
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{
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iMinLevel = iMaxLevel - iNumLayers;
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if (iMinLevel < 0)
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{
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iMinLevel = 0;
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iMaxLevel = iNumLayers;
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}
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}
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iStep = (iMaxLevel - iMinLevel) / iNumLayers;
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}// void FaceDetection::ThresholdingParam(IplImage *imgGray, int iNumLayers, int &iMinLevel, int &iMaxLevel, int &iStep)
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#ifndef MAX_ERROR
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#define MAX_ERROR 0xFFFFFFFF
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#endif //MAX_ERROR
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void FaceDetection::CreateResults(CvSeq * lpSeq)
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{
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Face * tmp;
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double Max = 0;
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double CurStat = 0;
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FaceData tmpData;
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if (m_bBoosting)
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{
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tmp = m_pFaceList->GetData();
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tmp->CreateFace(&tmpData);
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CvFace tmpFace;
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tmpFace.MouthRect = tmpData.MouthRect;
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tmpFace.LeftEyeRect = tmpData.LeftEyeRect;
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tmpFace.RightEyeRect = tmpData.RightEyeRect;
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cvSeqPush(lpSeq,&tmpFace);
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}else
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{
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while ( (tmp = m_pFaceList->GetData()) != 0 )
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{
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CurStat = tmp->GetWeight();
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if (CurStat > Max)
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Max = CurStat;
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}
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while ( (tmp = m_pFaceList->GetData()) != 0 )
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{
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tmp->CreateFace(&tmpData);
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CurStat = tmp->GetWeight();
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if (CurStat == Max)
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{
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CvFace tmpFace;
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tmpFace.MouthRect = tmpData.MouthRect;
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tmpFace.LeftEyeRect = tmpData.LeftEyeRect;
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tmpFace.RightEyeRect = tmpData.RightEyeRect;
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cvSeqPush(lpSeq,&tmpFace);
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}
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}
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}
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}// void FaceDetection::DrawResult(IplImage* img)
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void FaceDetection::ResetImage()
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{
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delete m_pFaceList;
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m_pFaceList = new FaceDetectionList();
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}//FaceDetection::ResetImage
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void FaceDetection::AddContours2Rect(CvSeq *seq, int color, int iLayer)
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{
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assert(m_mstgRects != NULL);
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assert(m_seqRects != NULL);
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CvContourRect cr;
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for (CvSeq* external = seq; external; external = external->h_next)
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{
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cr.r = cvContourBoundingRect(external, 1 );
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cr.pCenter.x = cr.r.x + cr.r.width / 2;
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cr.pCenter.y = cr.r.y + cr.r.height / 2;
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cr.iNumber = iLayer;
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cr.iType = 6;
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cr.iFlags = 0;
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cr.seqContour = external;
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cr.iContourLength = external->total;
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cr.iColor = color;
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cvSeqPush(m_seqRects, &cr);
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for (CvSeq* internal = external->v_next; internal; internal = internal->h_next)
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{
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cr.r = cvContourBoundingRect(internal, 0);
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cr.pCenter.x = cr.r.x + cr.r.width / 2;
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cr.pCenter.y = cr.r.y + cr.r.height / 2;
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cr.iNumber = iLayer;
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cr.iType = 12;
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cr.iFlags = 0;
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cr.seqContour = internal;
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cr.iContourLength = internal->total;
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cr.iColor = color;
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cvSeqPush(m_seqRects, &cr);
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}
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}
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}// void FaceDetection::AddContours2Rect(CvSeq *seq, int color, int iLayer)
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int CV_CDECL CompareContourRect(const void* el1, const void* el2, void* /*userdata*/)
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{
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return (((CvContourRect*)el1)->pCenter.y - ((CvContourRect*)el2)->pCenter.y);
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}// int CV_CDECL CompareContourRect(const void* el1, const void* el2, void* userdata)
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void FaceDetection::FindFace(IplImage *img)
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{
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// find all contours
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FindContours(img);
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//
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ResetImage();
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if (m_bBoosting)
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PostBoostingFindCandidats(img);
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else
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FindCandidats();
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}// void FaceDetection::FindFace(IplImage *img)
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void FaceDetection::FindCandidats()
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{
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bool bFound1 = false;
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MouthFaceTemplate * lpFaceTemplate1 = 0;
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RFace * lpFace1 = 0;
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bool bInvalidRect1 = false;
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CvRect * lpRect1 = NULL;
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try
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{
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for (int i = 0; i < m_seqRects->total; i++)
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{
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CvContourRect* pRect = (CvContourRect*)cvGetSeqElem(m_seqRects, i);
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CvRect rect = pRect->r;
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if (rect.width >= 2*rect.height)
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{
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lpFaceTemplate1 = new MouthFaceTemplate(3,rect,3*(double)rect.width/(double)4,
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3*(double)rect.width/(double)4,
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(double)rect.width/(double)2,
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(double)rect.width/(double)2);
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lpFace1 = new RFace(lpFaceTemplate1);
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for (int j = 0; j < m_seqRects->total; j++)
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{
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CvContourRect* prect = (CvContourRect*)cvGetSeqElem(m_seqRects, j);
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if ( !bInvalidRect1 )
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{
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lpRect1 = NULL;
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lpRect1 = new CvRect();
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*lpRect1 = prect->r;
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}else
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{
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delete lpRect1;
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lpRect1 = new CvRect();
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*lpRect1 = prect->r;
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}
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if ( lpFace1->isFeature(lpRect1) )
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{
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bFound1 = true;
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bInvalidRect1 = false;
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}else
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bInvalidRect1 = true;
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}
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if (bFound1)
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{
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m_pFaceList->AddElem(lpFace1);
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bFound1 = false;
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lpFace1 = NULL;
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}else
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{
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delete lpFace1;
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lpFace1 = NULL;
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}
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delete lpFaceTemplate1;
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}
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}
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}
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catch(...)
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{
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delete lpFaceTemplate1;
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delete lpFace1;
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throw;
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}
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}
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void FaceDetection::PostBoostingFindCandidats(IplImage * FaceImage)
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{
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BoostingFaceTemplate * lpFaceTemplate1 = 0;
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RFace * lpFace1 = 0;
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bool bInvalidRect1 = false;
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CvRect * lpRect1 = NULL;
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try
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{
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if ( ( !FaceImage->roi ) )
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lpFaceTemplate1 = new BoostingFaceTemplate(3,cvRect(0,0,FaceImage->width,FaceImage->height));
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else
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lpFaceTemplate1 = new BoostingFaceTemplate(3,cvRect(FaceImage->roi->xOffset,FaceImage->roi->yOffset,
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FaceImage->roi->width,FaceImage->roi->height));
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lpFace1 = new RFace(lpFaceTemplate1);
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for (int i = 0; i < m_seqRects->total; i++)
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{
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CvContourRect* pRect = (CvContourRect*)cvGetSeqElem(m_seqRects, i);
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if ( !bInvalidRect1 )
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{
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lpRect1 = NULL;
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lpRect1 = new CvRect();
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*lpRect1 = pRect->r;
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}else
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{
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delete lpRect1;
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lpRect1 = new CvRect();
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*lpRect1 = pRect->r;
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}
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if ( lpFace1->isFeature(lpRect1) )
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{
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//bFound1 = true;
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bInvalidRect1 = false;
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}else
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bInvalidRect1 = true;
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}
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m_pFaceList->AddElem(lpFace1);
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lpFace1 = NULL;
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delete lpFaceTemplate1;
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}
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catch(...)
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{
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delete lpFace1;
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delete lpFaceTemplate1;
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throw;
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}
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}//void FaceDetection::PostBoostingFindCandidats(IplImage * FaceImage)
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/////////////////////////
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//class Face
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//////
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//FaceDetectionList Class
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/////
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FaceDetectionListElem::FaceDetectionListElem()
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{
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m_pNext = this;
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m_pPrev = this;
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m_pFace = NULL;
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}///FaceDetectionListElem::FaceDetectionListElem()
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FaceDetectionListElem::FaceDetectionListElem(Face * pFace,FaceDetectionListElem * pHead)
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{
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m_pNext = pHead;
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m_pPrev = pHead->m_pPrev;
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pHead->m_pPrev->m_pNext = this;
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pHead->m_pPrev = this;
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m_pFace = pFace;
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}//FaceDetectionListElem::FaceDetectionListElem(Face * pFace)
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FaceDetectionListElem::~FaceDetectionListElem()
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{
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delete m_pFace;
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m_pNext->m_pPrev = m_pPrev;
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m_pPrev->m_pNext = m_pNext;
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}//FaceDetectionListElem::~FaceDetectionListElem()
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FaceDetectionList::FaceDetectionList()
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{
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m_pHead = new FaceDetectionListElem();
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m_FacesCount = 0;
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m_pCurElem = m_pHead;
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}//FaceDetectionList::FaceDetectionList()
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FaceDetectionList::~FaceDetectionList()
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{
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void * tmp;
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while((tmp = m_pHead->m_pNext->m_pFace) != 0)
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delete m_pHead->m_pNext;
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delete m_pHead;
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}//FaceDetectionList::~FaceDetectionList()
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int FaceDetectionList::AddElem(Face * pFace)
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{
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new FaceDetectionListElem(pFace,m_pHead);
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return m_FacesCount++;
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}//FaceDetectionList::AddElem(Face * pFace)
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Face * FaceDetectionList::GetData()
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{
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m_pCurElem = m_pCurElem->m_pNext;
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return m_pCurElem->m_pFace;
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}//Face * FaceDetectionList::GetData()
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