opencv/modules/imgcodecs/test/test_exif.cpp

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2024-09-24 07:17:36 +08:00
// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level
// directory of this distribution and at http://opencv.org/license.html
#include "test_precomp.hpp"
namespace opencv_test { namespace {
/**
* Test to check whether the EXIF orientation tag was processed successfully or not.
* The test uses a set of 8 images named testExifOrientation_{1 to 8}.(extension).
* Each test image is a 10x10 square, divided into four smaller sub-squares:
* (R corresponds to Red, G to Green, B to Blue, W to White)
* --------- ---------
* | R | G | | G | R |
* |-------| - (tag 1) |-------| - (tag 2)
* | B | W | | W | B |
* --------- ---------
*
* --------- ---------
* | W | B | | B | W |
* |-------| - (tag 3) |-------| - (tag 4)
* | G | R | | R | G |
* --------- ---------
*
* --------- ---------
* | R | B | | G | W |
* |-------| - (tag 5) |-------| - (tag 6)
* | G | W | | R | B |
* --------- ---------
*
* --------- ---------
* | W | G | | B | R |
* |-------| - (tag 7) |-------| - (tag 8)
* | B | R | | W | G |
* --------- ---------
*
*
* Each image contains an EXIF field with an orientation tag (0x112).
* After reading each image and applying the orientation tag,
* the resulting image should be:
* ---------
* | R | G |
* |-------|
* | B | W |
* ---------
*
* Note:
* The flags parameter of the imread function is set as IMREAD_COLOR | IMREAD_ANYCOLOR | IMREAD_ANYDEPTH.
* Using this combination is an undocumented trick to load images similarly to the IMREAD_UNCHANGED flag,
* preserving the alpha channel (if present) while also applying the orientation.
*/
typedef testing::TestWithParam<string> Exif;
TEST_P(Exif, exif_orientation)
{
const string root = cvtest::TS::ptr()->get_data_path();
const string filename = root + GetParam();
const int colorThresholdHigh = 250;
const int colorThresholdLow = 5;
// Refer to the note in the explanation above.
Mat m_img = imread(filename, IMREAD_COLOR | IMREAD_ANYCOLOR | IMREAD_ANYDEPTH);
ASSERT_FALSE(m_img.empty());
if (m_img.channels() == 3)
{
Vec3b vec;
//Checking the first quadrant (with supposed red)
vec = m_img.at<Vec3b>(2, 2); //some point inside the square
EXPECT_LE(vec.val[0], colorThresholdLow);
EXPECT_LE(vec.val[1], colorThresholdLow);
EXPECT_GE(vec.val[2], colorThresholdHigh);
//Checking the second quadrant (with supposed green)
vec = m_img.at<Vec3b>(2, 7); //some point inside the square
EXPECT_LE(vec.val[0], colorThresholdLow);
EXPECT_GE(vec.val[1], colorThresholdHigh);
EXPECT_LE(vec.val[2], colorThresholdLow);
//Checking the third quadrant (with supposed blue)
vec = m_img.at<Vec3b>(7, 2); //some point inside the square
EXPECT_GE(vec.val[0], colorThresholdHigh);
EXPECT_LE(vec.val[1], colorThresholdLow);
EXPECT_LE(vec.val[2], colorThresholdLow);
}
else
{
Vec4b vec;
//Checking the first quadrant (with supposed red)
vec = m_img.at<Vec4b>(2, 2); //some point inside the square
EXPECT_LE(vec.val[0], colorThresholdLow);
EXPECT_LE(vec.val[1], colorThresholdLow);
EXPECT_GE(vec.val[2], colorThresholdHigh);
//Checking the second quadrant (with supposed green)
vec = m_img.at<Vec4b>(2, 7); //some point inside the square
EXPECT_LE(vec.val[0], colorThresholdLow);
EXPECT_GE(vec.val[1], colorThresholdHigh);
EXPECT_LE(vec.val[2], colorThresholdLow);
//Checking the third quadrant (with supposed blue)
vec = m_img.at<Vec4b>(7, 2); //some point inside the square
EXPECT_GE(vec.val[0], colorThresholdHigh);
EXPECT_LE(vec.val[1], colorThresholdLow);
EXPECT_LE(vec.val[2], colorThresholdLow);
}
}
const string exif_files[] =
{
#ifdef HAVE_JPEG
"readwrite/testExifOrientation_1.jpg",
"readwrite/testExifOrientation_2.jpg",
"readwrite/testExifOrientation_3.jpg",
"readwrite/testExifOrientation_4.jpg",
"readwrite/testExifOrientation_5.jpg",
"readwrite/testExifOrientation_6.jpg",
"readwrite/testExifOrientation_7.jpg",
"readwrite/testExifOrientation_8.jpg",
#endif
#ifdef OPENCV_IMGCODECS_PNG_WITH_EXIF
"readwrite/testExifOrientation_1.png",
"readwrite/testExifOrientation_2.png",
"readwrite/testExifOrientation_3.png",
"readwrite/testExifOrientation_4.png",
"readwrite/testExifOrientation_5.png",
"readwrite/testExifOrientation_6.png",
"readwrite/testExifOrientation_7.png",
"readwrite/testExifOrientation_8.png",
#endif
#ifdef HAVE_AVIF
"readwrite/testExifOrientation_1.avif",
"readwrite/testExifOrientation_2.avif",
"readwrite/testExifOrientation_3.avif",
"readwrite/testExifOrientation_4.avif",
"readwrite/testExifOrientation_5.avif",
"readwrite/testExifOrientation_6.avif",
"readwrite/testExifOrientation_7.avif",
"readwrite/testExifOrientation_8.avif",
#endif
};
INSTANTIATE_TEST_CASE_P(Imgcodecs, Exif,
testing::ValuesIn(exif_files));
}
}