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415 lines
13 KiB
C
415 lines
13 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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* _cvhaartraining.h
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*
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* training of cascade of boosted classifiers based on haar features
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*/
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#ifndef __CVHAARTRAINING_H_
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#define __CVHAARTRAINING_H_
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#include "_cvcommon.h"
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#include "cvclassifier.h"
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#include <cstring>
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#include <cstdio>
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/* parameters for tree cascade classifier training */
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/* max number of clusters */
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#define CV_MAX_CLUSTERS 3
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/* term criteria for K-Means */
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#define CV_TERM_CRITERIA() cvTermCriteria( CV_TERMCRIT_EPS, 1000, 1E-5 )
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/* print statistic info */
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#define CV_VERBOSE 1
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#define CV_STAGE_CART_FILE_NAME "AdaBoostCARTHaarClassifier.txt"
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#define CV_HAAR_FEATURE_MAX 3
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#define CV_HAAR_FEATURE_DESC_MAX 20
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typedef int sum_type;
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typedef double sqsum_type;
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typedef short idx_type;
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#define CV_SUM_MAT_TYPE CV_32SC1
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#define CV_SQSUM_MAT_TYPE CV_64FC1
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#define CV_IDX_MAT_TYPE CV_16SC1
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#define CV_STUMP_TRAIN_PORTION 100
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#define CV_THRESHOLD_EPS (0.00001F)
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typedef struct CvTHaarFeature
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{
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char desc[CV_HAAR_FEATURE_DESC_MAX];
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int tilted;
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struct
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{
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CvRect r;
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float weight;
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} rect[CV_HAAR_FEATURE_MAX];
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} CvTHaarFeature;
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typedef struct CvFastHaarFeature
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{
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int tilted;
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struct
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{
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int p0, p1, p2, p3;
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float weight;
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} rect[CV_HAAR_FEATURE_MAX];
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} CvFastHaarFeature;
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typedef struct CvIntHaarFeatures
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{
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CvSize winsize;
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int count;
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CvTHaarFeature* feature;
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CvFastHaarFeature* fastfeature;
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} CvIntHaarFeatures;
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CV_INLINE CvTHaarFeature cvHaarFeature( const char* desc,
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int x0, int y0, int w0, int h0, float wt0,
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int x1, int y1, int w1, int h1, float wt1,
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int x2 CV_DEFAULT( 0 ), int y2 CV_DEFAULT( 0 ),
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int w2 CV_DEFAULT( 0 ), int h2 CV_DEFAULT( 0 ),
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float wt2 CV_DEFAULT( 0.0F ) );
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CV_INLINE CvTHaarFeature cvHaarFeature( const char* desc,
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int x0, int y0, int w0, int h0, float wt0,
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int x1, int y1, int w1, int h1, float wt1,
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int x2, int y2, int w2, int h2, float wt2 )
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{
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CvTHaarFeature hf;
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assert( CV_HAAR_FEATURE_MAX >= 3 );
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assert( strlen( desc ) < CV_HAAR_FEATURE_DESC_MAX );
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strcpy( &(hf.desc[0]), desc );
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hf.tilted = ( hf.desc[0] == 't' );
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hf.rect[0].r.x = x0;
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hf.rect[0].r.y = y0;
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hf.rect[0].r.width = w0;
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hf.rect[0].r.height = h0;
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hf.rect[0].weight = wt0;
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hf.rect[1].r.x = x1;
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hf.rect[1].r.y = y1;
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hf.rect[1].r.width = w1;
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hf.rect[1].r.height = h1;
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hf.rect[1].weight = wt1;
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hf.rect[2].r.x = x2;
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hf.rect[2].r.y = y2;
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hf.rect[2].r.width = w2;
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hf.rect[2].r.height = h2;
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hf.rect[2].weight = wt2;
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return hf;
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}
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/* Prepared for training samples */
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typedef struct CvHaarTrainingData
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{
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CvSize winsize; /* training image size */
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int maxnum; /* maximum number of samples */
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CvMat sum; /* sum images (each row represents image) */
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CvMat tilted; /* tilted sum images (each row represents image) */
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CvMat normfactor; /* normalization factor */
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CvMat cls; /* classes. 1.0 - object, 0.0 - background */
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CvMat weights; /* weights */
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CvMat* valcache; /* precalculated feature values (CV_32FC1) */
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CvMat* idxcache; /* presorted indices (CV_IDX_MAT_TYPE) */
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} CvHaarTrainigData;
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/* Passed to callback functions */
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typedef struct CvUserdata
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{
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CvHaarTrainingData* trainingData;
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CvIntHaarFeatures* haarFeatures;
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} CvUserdata;
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CV_INLINE
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CvUserdata cvUserdata( CvHaarTrainingData* trainingData,
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CvIntHaarFeatures* haarFeatures );
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CV_INLINE
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CvUserdata cvUserdata( CvHaarTrainingData* trainingData,
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CvIntHaarFeatures* haarFeatures )
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{
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CvUserdata userdata;
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userdata.trainingData = trainingData;
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userdata.haarFeatures = haarFeatures;
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return userdata;
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}
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#define CV_INT_HAAR_CLASSIFIER_FIELDS() \
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float (*eval)( CvIntHaarClassifier*, sum_type*, sum_type*, float ); \
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void (*save)( CvIntHaarClassifier*, FILE* file ); \
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void (*release)( CvIntHaarClassifier** );
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/* internal weak classifier*/
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typedef struct CvIntHaarClassifier
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{
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CV_INT_HAAR_CLASSIFIER_FIELDS()
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} CvIntHaarClassifier;
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/*
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* CART classifier
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*/
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typedef struct CvCARTHaarClassifier
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{
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CV_INT_HAAR_CLASSIFIER_FIELDS()
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int count;
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int* compidx;
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CvTHaarFeature* feature;
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CvFastHaarFeature* fastfeature;
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float* threshold;
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int* left;
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int* right;
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float* val;
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} CvCARTHaarClassifier;
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/* internal stage classifier */
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typedef struct CvStageHaarClassifier
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{
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CV_INT_HAAR_CLASSIFIER_FIELDS()
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int count;
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float threshold;
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CvIntHaarClassifier** classifier;
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} CvStageHaarClassifier;
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/* internal cascade classifier */
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typedef struct CvCascadeHaarClassifier
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{
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CV_INT_HAAR_CLASSIFIER_FIELDS()
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int count;
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CvIntHaarClassifier** classifier;
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} CvCascadeHaarClassifier;
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/* internal tree cascade classifier node */
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typedef struct CvTreeCascadeNode
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{
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CvStageHaarClassifier* stage;
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struct CvTreeCascadeNode* next;
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struct CvTreeCascadeNode* child;
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struct CvTreeCascadeNode* parent;
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struct CvTreeCascadeNode* next_same_level;
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struct CvTreeCascadeNode* child_eval;
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int idx;
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int leaf;
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} CvTreeCascadeNode;
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/* internal tree cascade classifier */
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typedef struct CvTreeCascadeClassifier
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{
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CV_INT_HAAR_CLASSIFIER_FIELDS()
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CvTreeCascadeNode* root; /* root of the tree */
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CvTreeCascadeNode* root_eval; /* root node for the filtering */
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int next_idx;
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} CvTreeCascadeClassifier;
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CV_INLINE float cvEvalFastHaarFeature( const CvFastHaarFeature* feature,
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const sum_type* sum, const sum_type* tilted )
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{
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const sum_type* img = feature->tilted ? tilted : sum;
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float ret = feature->rect[0].weight*
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(img[feature->rect[0].p0] - img[feature->rect[0].p1] -
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img[feature->rect[0].p2] + img[feature->rect[0].p3]) +
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feature->rect[1].weight*
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(img[feature->rect[1].p0] - img[feature->rect[1].p1] -
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img[feature->rect[1].p2] + img[feature->rect[1].p3]);
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if( feature->rect[2].weight != 0.0f )
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ret += feature->rect[2].weight *
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( img[feature->rect[2].p0] - img[feature->rect[2].p1] -
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img[feature->rect[2].p2] + img[feature->rect[2].p3] );
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return ret;
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}
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typedef struct CvSampleDistortionData
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{
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IplImage* src;
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IplImage* erode;
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IplImage* dilate;
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IplImage* mask;
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IplImage* img;
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IplImage* maskimg;
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int dx;
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int dy;
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int bgcolor;
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} CvSampleDistortionData;
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/*
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* icvConvertToFastHaarFeature
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*
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* Convert to fast representation of haar features
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*
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* haarFeature - input array
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* fastHaarFeature - output array
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* size - size of arrays
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* step - row step for the integral image
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*/
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void icvConvertToFastHaarFeature( CvTHaarFeature* haarFeature,
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CvFastHaarFeature* fastHaarFeature,
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int size, int step );
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void icvWriteVecHeader( FILE* file, int count, int width, int height );
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void icvWriteVecSample( FILE* file, CvArr* sample );
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void icvPlaceDistortedSample( CvArr* background,
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int inverse, int maxintensitydev,
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double maxxangle, double maxyangle, double maxzangle,
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int inscribe, double maxshiftf, double maxscalef,
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CvSampleDistortionData* data );
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void icvEndSampleDistortion( CvSampleDistortionData* data );
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int icvStartSampleDistortion( const char* imgfilename, int bgcolor, int bgthreshold,
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CvSampleDistortionData* data );
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typedef int (*CvGetHaarTrainingDataCallback)( CvMat* img, void* userdata );
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typedef struct CvVecFile
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{
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FILE* input;
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int count;
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int vecsize;
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int last;
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short* vector;
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} CvVecFile;
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int icvGetHaarTraininDataFromVecCallback( CvMat* img, void* userdata );
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/*
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* icvGetHaarTrainingDataFromVec
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*
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* Fill <data> with samples from .vec file, passed <cascade>
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int icvGetHaarTrainingDataFromVec( CvHaarTrainingData* data, int first, int count,
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CvIntHaarClassifier* cascade,
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const char* filename,
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int* consumed );
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*/
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CvIntHaarClassifier* icvCreateCARTHaarClassifier( int count );
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void icvReleaseHaarClassifier( CvIntHaarClassifier** classifier );
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void icvInitCARTHaarClassifier( CvCARTHaarClassifier* carthaar, CvCARTClassifier* cart,
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CvIntHaarFeatures* intHaarFeatures );
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float icvEvalCARTHaarClassifier( CvIntHaarClassifier* classifier,
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sum_type* sum, sum_type* tilted, float normfactor );
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CvIntHaarClassifier* icvCreateStageHaarClassifier( int count, float threshold );
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void icvReleaseStageHaarClassifier( CvIntHaarClassifier** classifier );
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float icvEvalStageHaarClassifier( CvIntHaarClassifier* classifier,
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sum_type* sum, sum_type* tilted, float normfactor );
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CvIntHaarClassifier* icvCreateCascadeHaarClassifier( int count );
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void icvReleaseCascadeHaarClassifier( CvIntHaarClassifier** classifier );
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float icvEvalCascadeHaarClassifier( CvIntHaarClassifier* classifier,
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sum_type* sum, sum_type* tilted, float normfactor );
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void icvSaveHaarFeature( CvTHaarFeature* feature, FILE* file );
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void icvLoadHaarFeature( CvTHaarFeature* feature, FILE* file );
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void icvSaveCARTHaarClassifier( CvIntHaarClassifier* classifier, FILE* file );
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CvIntHaarClassifier* icvLoadCARTHaarClassifier( FILE* file, int step );
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void icvSaveStageHaarClassifier( CvIntHaarClassifier* classifier, FILE* file );
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CvIntHaarClassifier* icvLoadCARTStageHaarClassifier( const char* filename, int step );
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/* tree cascade classifier */
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float icvEvalTreeCascadeClassifier( CvIntHaarClassifier* classifier,
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sum_type* sum, sum_type* tilted, float normfactor );
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void icvSetLeafNode( CvTreeCascadeClassifier* tree, CvTreeCascadeNode* leaf );
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float icvEvalTreeCascadeClassifierFilter( CvIntHaarClassifier* classifier, sum_type* sum,
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sum_type* tilted, float normfactor );
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CvTreeCascadeNode* icvCreateTreeCascadeNode();
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void icvReleaseTreeCascadeNodes( CvTreeCascadeNode** node );
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void icvReleaseTreeCascadeClassifier( CvIntHaarClassifier** classifier );
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/* Prints out current tree structure to <stdout> */
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void icvPrintTreeCascade( CvTreeCascadeNode* root );
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/* Loads tree cascade classifier */
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CvIntHaarClassifier* icvLoadTreeCascadeClassifier( const char* filename, int step,
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int* splits );
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/* Finds leaves belonging to maximal level and connects them via leaf->next_same_level */
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CvTreeCascadeNode* icvFindDeepestLeaves( CvTreeCascadeClassifier* tree );
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#endif /* __CVHAARTRAINING_H_ */
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