9cee399e37
* fix color conversion bugs * use smaller text and thinner lines |
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demo | ||
lib | ||
tests | ||
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LICENSE | ||
Makefile | ||
README.md |
Quirc
QR codes are a type of high-density matrix barcodes, and quirc is a library for extracting and decoding them from images. It has several features which make it a good choice for this purpose:
-
It is fast enough to be used with realtime video: extracting and decoding from VGA frame takes about 50 ms on a modern x86 core.
-
It has a robust and tolerant recognition algorithm. It can correctly recognise and decode QR codes which are rotated and/or oblique to the camera. It can also distinguish and decode multiple codes within the same image.
-
It is easy to use, with a simple API described in a single commented header file (see below for an overview).
-
It is small and easily embeddable, with no dependencies other than standard C functions.
-
It has a very small memory footprint: one byte per image pixel, plus a few kB per decoder object.
-
It uses no global mutable state, and is safe to use in a multithreaded application.
-
BSD-licensed, with almost no restrictions regarding use and/or modification.
The distribution comes with, in addition to the library, several test programs. While the core library is very portable, these programs have some additional dependencies as documented below.
quirc-demo
This is an real-time demo which requires a camera and a graphical display. The video stream is displayed on screen as it's received, and any QR codes recognised are highlighted in the image, with the decoded information both displayed on the image and printed on stdout.
This requires: libjpeg, libpng, SDL, V4L2
quirc-demo-opencv
A demo similar to quirc-demo
.
But this version uses OpenCV instead of other libraries.
This requires: OpenCV
quirc-scanner
This program turns your camera into a barcode scanner. It's almost the same as
the demo
application, but it doesn't display the video stream, and thus
doesn't require a graphical display.
This requires: libjpeg, V4L2
qrtest
This test is used to evaluate the performance of library. Given a directory tree containing a bunch of JPEG images, it will attempt to locate and decode QR codes in each image. Speed and success statistics are collected and printed on stdout.
This requires: libjpeg, libpng
inspect
This test is used for debugging. Given a single JPEG image, it will display a diagram showing the internal state of the decoder as well as printing additional information on stdout.
This requires: libjpeg, libpng, SDL
inspect-opencv
A test similar to inspect
.
But this version uses OpenCV instead of other libraries.
This requires: libjpeg, libpng, OpenCV
Build-time requirements
make
While we are trying to keep our makefiles portable, it might be incompatible with some versions of make.
GNU make
Version 4.x and later works. We recommend to use it.
Version prior to 4.0 doesn't work because it doesn't support !=
.
Note: macOS's default version of make is GNU make 3.81 as of writing this.
BSD make
It also works.
You might need to specify the -r
make option because some of
the default macros like CFLAGS from sys.mk can cause unintended effects.
Installation
To build the library and associated demos/tests, type make
. If you need to
decode "large" image files build with CFLAGS="-DQUIRC_MAX_REGIONS=65534" make
instead. Note that this will increase the memory usage, it is discouraged for
low resource devices (i.e. embedded).
Type make install
to install the library, header file and camera demos.
You can specify one or several of the following targets if you don't want, or are unable to build everything:
- libquirc.a
- libquirc.so
- qrtest
- inspect
- inspect-opencv
- quirc-scanner
- quirc-demo
- quirc-demo-opencv
Library use
All of the library's functionality is exposed through a single header file, which you should include:
#include <quirc.h>
To decode images, you'll need to instantiate a struct quirc
object, which is
done with the quirc_new
function. Later, when you no longer need to decode
anything, you should release the allocated memory with quirc_destroy
:
struct quirc *qr;
qr = quirc_new();
if (!qr) {
perror("Failed to allocate memory");
abort();
}
/* ... */
quirc_destroy(qr);
Having obtained a decoder object, you need to set the image size that you'll be
working with, which is done using quirc_resize
:
if (quirc_resize(qr, 640, 480) < 0) {
perror("Failed to allocate video memory");
abort();
}
quirc_resize
and quirc_new
are the only library functions which allocate
memory. If you plan to process a series of frames (or a video stream), you
probably want to allocate and size a single decoder and hold onto it to process
each frame.
Processing frames is done in two stages. The first stage is an
image-recognition stage called identification, which takes a grayscale image
and searches for QR codes. Using quirc_begin
and quirc_end
, you can feed a
grayscale image directly into the buffer that quirc
uses for image
processing:
uint8_t *image;
int w, h;
image = quirc_begin(qr, &w, &h);
/* Fill out the image buffer here.
* image is a pointer to a w*h bytes.
* One byte per pixel, w pixels per line, h lines in the buffer.
*/
quirc_end(qr);
Note that quirc_begin
simply returns a pointer to a previously allocated
buffer. The buffer will contain uninitialized data. After the call to
quirc_end
, the decoder holds a list of detected QR codes which can be queried
via quirc_count
and quirc_extract
.
At this point, the second stage of processing occurs -- decoding. This is done
via the call to quirc_decode
, which is not associated with a decoder object.
int num_codes;
int i;
/* We've previously fed an image to the decoder via
* quirc_begin/quirc_end.
*/
num_codes = quirc_count(qr);
for (i = 0; i < num_codes; i++) {
struct quirc_code code;
struct quirc_data data;
quirc_decode_error_t err;
quirc_extract(qr, i, &code);
/* Decoding stage */
err = quirc_decode(&code, &data);
if (err)
printf("DECODE FAILED: %s\n", quirc_strerror(err));
else
printf("Data: %s\n", data.payload);
}
quirc_code
and quirc_data
are flat structures which don't need to be
initialized or freed after use.
In case you also need to support horizontally flipped QR-codes (mirrored images according to ISO 18004:2015, pages 6 and 62), you can make a second decode attempt with the flipped image data whenever you get an ECC failure:
err = quirc_decode(&code, &data);
if (err == QUIRC_ERROR_DATA_ECC) {
quirc_flip(&code);
err = quirc_decode(&code, &data);
}
if (err)
printf("DECODE FAILED: %s\n", quirc_strerror(err));
else
printf("Data: %s\n", data.payload);
Copyright
Copyright (C) 2010-2012 Daniel Beer <dlbeer@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.