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# include <opencv2/opencv.hpp>
# include <vector>
# include <iostream>
using namespace std ;
using namespace cv ;
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static void help ( )
{
cout < < " \n This program demonstrates how to detect compute and match ORB BRISK and AKAZE descriptors \n "
" Usage: \n "
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" ./matchmethod_orb_akaze_brisk --image1=<image1(../data/basketball1.png as default)> --image2=<image2(../data/basketball2.png as default)> \n "
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" Press a key when image window is active to change algorithm or descriptor " ;
}
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int main ( int argc , char * argv [ ] )
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{
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vector < String > typeDesc ;
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vector < String > typeAlgoMatch ;
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vector < String > fileName ;
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// This descriptor are going to be detect and compute
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typeDesc . push_back ( " AKAZE-DESCRIPTOR_KAZE_UPRIGHT " ) ; // see http://docs.opencv.org/trunk/d8/d30/classcv_1_1AKAZE.html
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typeDesc . push_back ( " AKAZE " ) ; // see http://docs.opencv.org/trunk/d8/d30/classcv_1_1AKAZE.html
typeDesc . push_back ( " ORB " ) ; // see http://docs.opencv.org/trunk/de/dbf/classcv_1_1BRISK.html
typeDesc . push_back ( " BRISK " ) ; // see http://docs.opencv.org/trunk/db/d95/classcv_1_1ORB.html
// This algorithm would be used to match descriptors see http://docs.opencv.org/trunk/db/d39/classcv_1_1DescriptorMatcher.html#ab5dc5036569ecc8d47565007fa518257
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typeAlgoMatch . push_back ( " BruteForce " ) ;
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typeAlgoMatch . push_back ( " BruteForce-L1 " ) ;
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typeAlgoMatch . push_back ( " BruteForce-Hamming " ) ;
typeAlgoMatch . push_back ( " BruteForce-Hamming(2) " ) ;
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cv : : CommandLineParser parser ( argc , argv ,
" { @image1 | ../data/basketball1.png | } "
" { @image2 | ../data/basketball2.png | } "
" {help h ||} " ) ;
if ( parser . has ( " help " ) )
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{
help ( ) ;
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return 0 ;
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}
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fileName . push_back ( parser . get < string > ( 0 ) ) ;
fileName . push_back ( parser . get < string > ( 1 ) ) ;
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Mat img1 = imread ( fileName [ 0 ] , IMREAD_GRAYSCALE ) ;
Mat img2 = imread ( fileName [ 1 ] , IMREAD_GRAYSCALE ) ;
if ( img1 . rows * img1 . cols < = 0 )
{
cout < < " Image " < < fileName [ 0 ] < < " is empty or cannot be found \n " ;
return ( 0 ) ;
}
if ( img2 . rows * img2 . cols < = 0 )
{
cout < < " Image " < < fileName [ 1 ] < < " is empty or cannot be found \n " ;
return ( 0 ) ;
}
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vector < double > desMethCmp ;
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Ptr < Feature2D > b ;
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// Descriptor loop
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vector < String > : : iterator itDesc ;
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for ( itDesc = typeDesc . begin ( ) ; itDesc ! = typeDesc . end ( ) ; + + itDesc )
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{
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Ptr < DescriptorMatcher > descriptorMatcher ;
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// Match between img1 and img2
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vector < DMatch > matches ;
// keypoint for img1 and img2
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vector < KeyPoint > keyImg1 , keyImg2 ;
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// Descriptor for img1 and img2
Mat descImg1 , descImg2 ;
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vector < String > : : iterator itMatcher = typeAlgoMatch . end ( ) ;
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if ( * itDesc = = " AKAZE-DESCRIPTOR_KAZE_UPRIGHT " ) {
b = AKAZE : : create ( AKAZE : : DESCRIPTOR_KAZE_UPRIGHT ) ;
}
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if ( * itDesc = = " AKAZE " ) {
b = AKAZE : : create ( ) ;
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}
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if ( * itDesc = = " ORB " ) {
b = ORB : : create ( ) ;
}
else if ( * itDesc = = " BRISK " ) {
b = BRISK : : create ( ) ;
}
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try
{
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// We can detect keypoint with detect method
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b - > detect ( img1 , keyImg1 , Mat ( ) ) ;
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// and compute their descriptors with method compute
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b - > compute ( img1 , keyImg1 , descImg1 ) ;
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// or detect and compute descriptors in one step
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b - > detectAndCompute ( img2 , Mat ( ) , keyImg2 , descImg2 , false ) ;
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// Match method loop
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for ( itMatcher = typeAlgoMatch . begin ( ) ; itMatcher ! = typeAlgoMatch . end ( ) ; + + itMatcher ) {
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descriptorMatcher = DescriptorMatcher : : create ( * itMatcher ) ;
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if ( ( * itMatcher = = " BruteForce-Hamming " | | * itMatcher = = " BruteForce-Hamming(2) " ) & & ( b - > descriptorType ( ) = = CV_32F | | b - > defaultNorm ( ) < = NORM_L2SQR ) )
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{
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cout < < " ************************************************************************** \n " ;
cout < < " It's strange. You should use Hamming distance only for a binary descriptor \n " ;
cout < < " ************************************************************************** \n " ;
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}
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if ( ( * itMatcher = = " BruteForce " | | * itMatcher = = " BruteForce-L1 " ) & & ( b - > defaultNorm ( ) > = NORM_HAMMING ) )
{
cout < < " ************************************************************************** \n " ;
cout < < " It's strange. You shouldn't use L1 or L2 distance for a binary descriptor \n " ;
cout < < " ************************************************************************** \n " ;
}
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try
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{
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descriptorMatcher - > match ( descImg1 , descImg2 , matches , Mat ( ) ) ;
// Keep best matches only to have a nice drawing.
// We sort distance between descriptor matches
Mat index ;
int nbMatch = int ( matches . size ( ) ) ;
Mat tab ( nbMatch , 1 , CV_32F ) ;
for ( int i = 0 ; i < nbMatch ; i + + )
{
tab . at < float > ( i , 0 ) = matches [ i ] . distance ;
}
sortIdx ( tab , index , SORT_EVERY_COLUMN + SORT_ASCENDING ) ;
vector < DMatch > bestMatches ;
for ( int i = 0 ; i < 30 ; i + + )
{
bestMatches . push_back ( matches [ index . at < int > ( i , 0 ) ] ) ;
}
Mat result ;
drawMatches ( img1 , keyImg1 , img2 , keyImg2 , bestMatches , result ) ;
namedWindow ( * itDesc + " : " + * itMatcher , WINDOW_AUTOSIZE ) ;
imshow ( * itDesc + " : " + * itMatcher , result ) ;
// Saved result could be wrong due to bug 4308
FileStorage fs ( * itDesc + " _ " + * itMatcher + " .yml " , FileStorage : : WRITE ) ;
fs < < " Matches " < < matches ;
vector < DMatch > : : iterator it ;
cout < < " **********Match results********** \n " ;
cout < < " Index \t Index \t distance \n " ;
cout < < " in img1 \t in img2 \n " ;
// Use to compute distance between keyPoint matches and to evaluate match algorithm
double cumSumDist2 = 0 ;
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for ( it = bestMatches . begin ( ) ; it ! = bestMatches . end ( ) ; + + it )
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{
cout < < it - > queryIdx < < " \t " < < it - > trainIdx < < " \t " < < it - > distance < < " \n " ;
Point2d p = keyImg1 [ it - > queryIdx ] . pt - keyImg2 [ it - > trainIdx ] . pt ;
cumSumDist2 = p . x * p . x + p . y * p . y ;
}
desMethCmp . push_back ( cumSumDist2 ) ;
waitKey ( ) ;
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}
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catch ( Exception & e )
{
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cout < < e . msg < < endl ;
cout < < " Cumulative distance cannot be computed. " < < endl ;
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desMethCmp . push_back ( - 1 ) ;
}
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}
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}
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catch ( Exception & e )
{
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cout < < " Feature : " < < * itDesc < < " \n " ;
if ( itMatcher ! = typeAlgoMatch . end ( ) )
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{
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cout < < " Matcher : " < < * itMatcher < < " \n " ;
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}
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cout < < e . msg < < endl ;
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}
}
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int i = 0 ;
cout < < " Cumulative distance between keypoint match for different algorithm and feature detector \n \t " ;
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cout < < " We cannot say which is the best but we can say results are different! \n \t " ;
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for ( vector < String > : : iterator itMatcher = typeAlgoMatch . begin ( ) ; itMatcher ! = typeAlgoMatch . end ( ) ; + + itMatcher )
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{
cout < < * itMatcher < < " \t " ;
}
cout < < " \n " ;
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for ( itDesc = typeDesc . begin ( ) ; itDesc ! = typeDesc . end ( ) ; + + itDesc )
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{
cout < < * itDesc < < " \t " ;
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for ( vector < String > : : iterator itMatcher = typeAlgoMatch . begin ( ) ; itMatcher ! = typeAlgoMatch . end ( ) ; + + itMatcher , + + i )
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{
cout < < desMethCmp [ i ] < < " \t " ;
}
cout < < " \n " ;
}
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return 0 ;
}