opencv/samples/cpp/qrcode.cpp
Alexander Alekhin 43002c0c1d
Merge pull request #13188 from alalek:samples_rename
* samples: rename starter_imagelist.cpp

* samples: rename intelperc_capture.cpp => videocapture_intelperc.cpp

* samples: rename openni_capture.cpp => videocapture_openni.cpp

* samples: rename image_sequence.cpp => videocapture_image_sequence.cpp

* samples: rename gstreamer_pipeline.cpp => videocapture_gstreamer_pipeline.cpp

* samples: rename autofocus.cpp => videocapture_gphoto2_autofocus.cpp

* samples: rename live_detect_qrcode.cpp => qrcode.cpp
2018-11-17 00:35:05 +03:00

187 lines
5.4 KiB
C++

#include "opencv2/objdetect.hpp"
#include "opencv2/imgproc.hpp"
#include "opencv2/highgui.hpp"
#include <string>
#include <iostream>
using namespace std;
using namespace cv;
static void drawQRCodeContour(Mat &color_image, vector<Point> transform);
static void drawFPS(Mat &color_image, double fps);
static int liveQRCodeDetect(const string& out_file);
static int imageQRCodeDetect(const string& in_file, const string& out_file);
int main(int argc, char *argv[])
{
const string keys =
"{h help ? | | print help messages }"
"{i in | | input path to file for detect (with parameter - show image, otherwise - camera)}"
"{o out | | output path to file (save image, work with -i parameter) }";
CommandLineParser cmd_parser(argc, argv, keys);
cmd_parser.about("This program detects the QR-codes from camera or images using the OpenCV library.");
if (cmd_parser.has("help"))
{
cmd_parser.printMessage();
return 0;
}
string in_file_name = cmd_parser.get<string>("in"); // input path to image
string out_file_name;
if (cmd_parser.has("out"))
out_file_name = cmd_parser.get<string>("out"); // output path to image
if (!cmd_parser.check())
{
cmd_parser.printErrors();
return -1;
}
int return_code = 0;
if (in_file_name.empty())
{
return_code = liveQRCodeDetect(out_file_name);
}
else
{
return_code = imageQRCodeDetect(samples::findFile(in_file_name), out_file_name);
}
return return_code;
}
void drawQRCodeContour(Mat &color_image, vector<Point> transform)
{
if (!transform.empty())
{
double show_radius = (color_image.rows > color_image.cols)
? (2.813 * color_image.rows) / color_image.cols
: (2.813 * color_image.cols) / color_image.rows;
double contour_radius = show_radius * 0.4;
vector< vector<Point> > contours;
contours.push_back(transform);
drawContours(color_image, contours, 0, Scalar(211, 0, 148), cvRound(contour_radius));
RNG rng(1000);
for (size_t i = 0; i < 4; i++)
{
Scalar color = Scalar(rng.uniform(0,255), rng.uniform(0, 255), rng.uniform(0, 255));
circle(color_image, transform[i], cvRound(show_radius), color, -1);
}
}
}
void drawFPS(Mat &color_image, double fps)
{
ostringstream convert;
convert << cvRound(fps) << " FPS (QR detection)";
putText(color_image, convert.str(), Point(25, 25), FONT_HERSHEY_DUPLEX, 1, Scalar(0, 0, 255), 2);
}
int liveQRCodeDetect(const string& out_file)
{
VideoCapture cap(0);
if(!cap.isOpened())
{
cout << "Cannot open a camera" << endl;
return -4;
}
QRCodeDetector qrcode;
TickMeter total;
for(;;)
{
Mat frame, src, straight_barcode;
string decode_info;
vector<Point> transform;
cap >> frame;
if (frame.empty())
{
cout << "End of video stream" << endl;
break;
}
cvtColor(frame, src, COLOR_BGR2GRAY);
total.start();
bool result_detection = qrcode.detect(src, transform);
if (result_detection)
{
decode_info = qrcode.decode(src, transform, straight_barcode);
if (!decode_info.empty()) { cout << decode_info << endl; }
}
total.stop();
double fps = 1 / total.getTimeSec();
total.reset();
if (result_detection) { drawQRCodeContour(frame, transform); }
drawFPS(frame, fps);
imshow("Live QR code detector", frame);
char c = (char)waitKey(30);
if (c == 27)
break;
if (c == ' ' && !out_file.empty())
imwrite(out_file, frame); // TODO write original frame too
}
return 0;
}
int imageQRCodeDetect(const string& in_file, const string& out_file)
{
Mat color_src = imread(in_file, IMREAD_COLOR), src;
cvtColor(color_src, src, COLOR_BGR2GRAY);
Mat straight_barcode;
string decoded_info;
vector<Point> transform;
const int count_experiments = 10;
double transform_time = 0.0;
bool result_detection = false;
TickMeter total;
QRCodeDetector qrcode;
for (size_t i = 0; i < count_experiments; i++)
{
total.start();
transform.clear();
result_detection = qrcode.detect(src, transform);
total.stop();
transform_time += total.getTimeSec();
total.reset();
if (!result_detection)
continue;
total.start();
decoded_info = qrcode.decode(src, transform, straight_barcode);
total.stop();
transform_time += total.getTimeSec();
total.reset();
}
double fps = count_experiments / transform_time;
if (!result_detection)
cout << "QR code not found" << endl;
if (decoded_info.empty())
cout << "QR code cannot be decoded" << endl;
drawQRCodeContour(color_src, transform);
drawFPS(color_src, fps);
cout << "Input image file path: " << in_file << endl;
cout << "Output image file path: " << out_file << endl;
cout << "Size: " << color_src.size() << endl;
cout << "FPS: " << fps << endl;
cout << "Decoded info: " << decoded_info << endl;
if (!out_file.empty())
{
imwrite(out_file, color_src);
}
for(;;)
{
imshow("Detect QR code on image", color_src);
if (waitKey(0) == 27)
break;
}
return 0;
}