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Does someone know the link of example of SIFT implementation with OpenCV 2.2. regards,

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up vote 31 down vote accepted

Below is a minimal example:

#include <opencv/cv.h>
#include <opencv/highgui.h>

int main(int argc, const char* argv[])
    const cv::Mat input = cv::imread("input.jpg", 0); //Load as grayscale

    cv::SiftFeatureDetector detector;
    std::vector<cv::KeyPoint> keypoints;
    detector.detect(input, keypoints);

    // Add results to image and save.
    cv::Mat output;
    cv::drawKeypoints(input, keypoints, output);
    cv::imwrite("sift_result.jpg", output);

    return 0;

Tested on OpenCV 2.3

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How about matching two images? – maximus Nov 11 '11 at 8:12
Have a look at OpenCV2.3.1/samples/cpp/matcher_simple.cpp… You need a DescriptorMatcher (like BruteForceMatcher) more documentation on those can be found here:… – Unapiedra Nov 11 '11 at 12:16
Thank you very much! :) – maximus Nov 13 '11 at 16:41
In order to compile your code with OpenCV 2.4.4 I need to add #include <opencv2/nonfree/features2d.hpp> – Alessandro Jacopson Mar 16 '13 at 15:41

You can obtain the SIFT detector and SIFT-based extractor in several ways. As others have already suggested the more direct methods, I will provide a more "software engineering" approach that may make you code more flexible to changes (i.e. easier to change to other detectors and extractors).

Firstly, if you are looking to obtain the detector using built in parameters the best way is to use OpenCV"s factory methods for creating it. Here's how:

#include <opencv2/core/core.hpp>
#include <opencv2/features2d/features2d.hpp>
#include <opencv2/highgui/highgui.hpp>

#include <vector>

using namespace std;
using namespace cv;

int main(int argc, char *argv[])
  Mat image = imread("TestImage.jpg");

  // Create smart pointer for SIFT feature detector.
  Ptr<FeatureDetector> featureDetector = FeatureDetector::create("SIFT");
  vector<KeyPoint> keypoints;

  // Detect the keypoints
  featureDetector->detect(image, keypoints); // NOTE: featureDetector is a pointer hence the '->'.

  //Similarly, we create a smart pointer to the SIFT extractor.
  Ptr<DescriptorExtractor> featureExtractor = DescriptorExtractor::create("SIFT");

  // Compute the 128 dimension SIFT descriptor at each keypoint.
  // Each row in "descriptors" correspond to the SIFT descriptor for each keypoint
  Mat descriptors;
  featureExtractor->compute(image, keypoints, descriptors);

  // If you would like to draw the detected keypoint just to check
  Mat outputImage;
  Scalar keypointColor = Scalar(255, 0, 0);     // Blue keypoints.
  drawKeypoints(image, keypoints, outputImage, keypointColor, DrawMatchesFlags::DEFAULT);

  imshow("Output", outputImage);

  char c = ' ';
  while ((c = waitKey(0)) != 'q');  // Keep window there until user presses 'q' to quit.

  return 0;


The reason using the factory methods is flexible because now you can change to a different keypoint detector or feature extractor e.g. SURF simply by changing the argument passed to the "create" factory methods like this:

Ptr<FeatureDetector> featureDetector = FeatureDetector::create("SURF");
Ptr<DescriptorExtractor> featureExtractor = DescriptorExtractor::create("SURF");

For other possible arguments to pass to create other detectors or extractors see:

Now, using the factory methods means you gain the convenience of not having to guess some suitable parameters to pass to each of the detectors or extractors. This can be convenient for people new to using them. However, if you would like to create your own custom SIFT detector, you can wrap the SiftDetector object created with custom parameters and wrap it into a smart pointer and refer to it using the featureDetector smart pointer variable as above.

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Thank You, this one is quite helpful. :) – mr.pppoe Jan 18 '12 at 4:28
I forgot to add - in case it is not obvious to some - that you can mix and match the detectors and extractors. For e.g., you could have a SIFT detector and a SURF extractor so that you end up extracting SURF descriptors at SIFT keypoints and vice versa. Follow the link above to see the other available detectors and extractors. – lightalchemist May 15 '12 at 1:08
Hi lightalchemist, Can we change the dimension of the descriptor from 128 to may be 64 or something like that? – MMH Mar 11 '14 at 7:04
In 2.4 beta SURF and SIFT were moved to nonfree module to indicate possible legal issues of using those algorithms in user applications. So "opencv2/nonfree/nonfree.hpp" has to be included now. They were also inherited from cv::Algorithm, so cv::initModule_nonfree() has to be called before using them to avoid the problem with SURF, SIFT algorithms registration. refer link1: cv::initModule_nonfree();//THIS LINE IS IMPORTANT refer link2:… – user2301281 Nov 27 '14 at 15:46

A simple example using SIFT nonfree feature detector in opencv 2.4

#include <opencv2/opencv.hpp>
#include <opencv2/nonfree/nonfree.hpp>
using namespace cv;

int main(int argc, char** argv)

    if(argc < 2)
        return -1;

    Mat img = imread(argv[1]);

    SIFT sift;
    vector<KeyPoint> key_points;

    Mat descriptors;
    sift(img, Mat(), key_points, descriptors);

    Mat output_img;
    drawKeypoints(img, key_points, output_img);

    imshow("Image", output_img);

    return 0;
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OpenCV provides SIFT and SURF (here too) and other feature descriptors out-of-the-box.
Note that the SIFT algorithm is patented, so it may be incompatible with the regular OpenCV use/license.

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Here is a great SIFT tutorial. The author also provides the entire code for the SIFT implementation. It is really great!

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Here's the link of OpenCV 2.2 SIFT implementation:

SIFT Opencv Vedaldi based Implementation

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Another simple example using SIFT nonfree feature detector in opencv 2.4 Be sure to add the opencv_nonfree240.lib dependency

#include "cv.h"
#include "highgui.h"
#include <opencv2/nonfree/nonfree.hpp>

int main(int argc, char** argv)
   cv::Mat img = cv::imread("image.jpg");

   cv::SIFT sift(10);   //number of keypoints

   cv::vector<cv::KeyPoint> key_points;

   cv::Mat descriptors, mascara;
   cv::Mat output_img;

   drawKeypoints(img, key_points, output_img);

   cv::imshow("Image", output_img);

   return 0;
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