Open Source Computer Vision Library https://opencv.org/
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// 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.
// Note: all tests here are DISABLED by default due specific requirements.
// Don't use #if 0 - these tests should be tested for compilation at least.
//
// Usage: opencv_test_videoio --gtest_also_run_disabled_tests --gtest_filter=*videoio_camera*<tested case>*
#include "test_precomp.hpp"
#include <opencv2/core/utils/configuration.private.hpp>
namespace opencv_test { namespace {
static void test_readFrames(/*const*/ VideoCapture& capture, const int N = 100, Mat* lastFrame = NULL, bool testTimestamps = true)
{
Mat frame;
int64 time0 = cv::getTickCount();
int64 sysTimePrev = time0;
const double cvTickFreq = cv::getTickFrequency();
double camTimePrev = 0.0;
const double fps = capture.get(cv::CAP_PROP_FPS);
const double framePeriod = fps == 0.0 ? 1. : 1.0 / fps;
const bool validTickAndFps = cvTickFreq != 0 && fps != 0.;
testTimestamps &= validTickAndFps;
for (int i = 0; i < N; i++)
{
SCOPED_TRACE(cv::format("frame=%d", i));
capture >> frame;
const int64 sysTimeCurr = cv::getTickCount();
const double camTimeCurr = capture.get(cv::CAP_PROP_POS_MSEC);
ASSERT_FALSE(frame.empty());
// Do we have a previous frame?
if (i > 0 && testTimestamps)
{
const double sysTimeElapsedSecs = (sysTimeCurr - sysTimePrev) / cvTickFreq;
const double camTimeElapsedSecs = (camTimeCurr - camTimePrev) / 1000.;
// Check that the time between two camera frames and two system time calls
// are within 1.5 frame periods of one another.
//
// 1.5x is chosen to accomodate for a dropped frame, and an additional 50%
// to account for drift in the scale of the camera and system time domains.
EXPECT_NEAR(sysTimeElapsedSecs, camTimeElapsedSecs, framePeriod * 1.5);
}
EXPECT_GT(cvtest::norm(frame, NORM_INF), 0) << "Complete black image has been received";
sysTimePrev = sysTimeCurr;
camTimePrev = camTimeCurr;
}
int64 time1 = cv::getTickCount();
printf("Processed %d frames on %.2f FPS\n", N, (N * cvTickFreq) / (time1 - time0 + 1));
if (lastFrame) *lastFrame = frame.clone();
}
TEST(DISABLED_videoio_camera, basic)
{
VideoCapture capture(0);
ASSERT_TRUE(capture.isOpened());
std::cout << "Camera 0 via " << capture.getBackendName() << " backend" << std::endl;
std::cout << "Frame width: " << capture.get(CAP_PROP_FRAME_WIDTH) << std::endl;
std::cout << " height: " << capture.get(CAP_PROP_FRAME_HEIGHT) << std::endl;
std::cout << "Capturing FPS: " << capture.get(CAP_PROP_FPS) << std::endl;
test_readFrames(capture);
capture.release();
}
TEST(DISABLED_videoio_camera, v4l_read_mjpg)
{
VideoCapture capture(CAP_V4L2);
ASSERT_TRUE(capture.isOpened());
ASSERT_TRUE(capture.set(CAP_PROP_FOURCC, VideoWriter::fourcc('M', 'J', 'P', 'G')));
std::cout << "Camera 0 via " << capture.getBackendName() << " backend" << std::endl;
std::cout << "Frame width: " << capture.get(CAP_PROP_FRAME_WIDTH) << std::endl;
std::cout << " height: " << capture.get(CAP_PROP_FRAME_HEIGHT) << std::endl;
std::cout << "Capturing FPS: " << capture.get(CAP_PROP_FPS) << std::endl;
int fourcc = (int)capture.get(CAP_PROP_FOURCC);
std::cout << "FOURCC code: " << cv::format("0x%8x", fourcc) << std::endl;
test_readFrames(capture);
capture.release();
}
//Following test if for capture device using PhysConn_Video_SerialDigital as crossbar input pin
TEST(DISABLED_videoio_camera, channel6)
{
VideoCapture capture(0);
ASSERT_TRUE(capture.isOpened());
capture.set(CAP_PROP_CHANNEL, 6);
std::cout << "Camera 0 via " << capture.getBackendName() << " backend" << std::endl;
std::cout << "Frame width: " << capture.get(CAP_PROP_FRAME_WIDTH) << std::endl;
std::cout << " height: " << capture.get(CAP_PROP_FRAME_HEIGHT) << std::endl;
std::cout << "Capturing FPS: " << capture.get(CAP_PROP_FPS) << std::endl;
test_readFrames(capture);
capture.release();
}
TEST(DISABLED_videoio_camera, v4l_read_framesize)
{
VideoCapture capture(CAP_V4L2);
ASSERT_TRUE(capture.isOpened());
std::cout << "Camera 0 via " << capture.getBackendName() << " backend" << std::endl;
std::cout << "Frame width: " << capture.get(CAP_PROP_FRAME_WIDTH) << std::endl;
std::cout << " height: " << capture.get(CAP_PROP_FRAME_HEIGHT) << std::endl;
std::cout << "Capturing FPS: " << capture.get(CAP_PROP_FPS) << std::endl;
int fourcc = (int)capture.get(CAP_PROP_FOURCC);
std::cout << "FOURCC code: " << cv::format("0x%8x", fourcc) << std::endl;
test_readFrames(capture, 30);
EXPECT_TRUE(capture.set(CAP_PROP_FRAME_WIDTH, 640));
EXPECT_TRUE(capture.set(CAP_PROP_FRAME_HEIGHT, 480));
std::cout << "Frame width: " << capture.get(CAP_PROP_FRAME_WIDTH) << std::endl;
std::cout << " height: " << capture.get(CAP_PROP_FRAME_HEIGHT) << std::endl;
std::cout << "Capturing FPS: " << capture.get(CAP_PROP_FPS) << std::endl;
Mat frame640x480;
test_readFrames(capture, 30, &frame640x480);
EXPECT_EQ(640, frame640x480.cols);
EXPECT_EQ(480, frame640x480.rows);
EXPECT_TRUE(capture.set(CAP_PROP_FRAME_WIDTH, 1280));
EXPECT_TRUE(capture.set(CAP_PROP_FRAME_HEIGHT, 720));
std::cout << "Frame width: " << capture.get(CAP_PROP_FRAME_WIDTH) << std::endl;
std::cout << " height: " << capture.get(CAP_PROP_FRAME_HEIGHT) << std::endl;
std::cout << "Capturing FPS: " << capture.get(CAP_PROP_FPS) << std::endl;
Mat frame1280x720;
test_readFrames(capture, 30, &frame1280x720);
EXPECT_EQ(1280, frame1280x720.cols);
EXPECT_EQ(720, frame1280x720.rows);
capture.release();
}
static
utils::Paths getTestCameras()
{
static utils::Paths cameras = utils::getConfigurationParameterPaths("OPENCV_TEST_CAMERA_LIST");
return cameras;
}
TEST(DISABLED_videoio_camera, waitAny_V4L)
{
auto cameraNames = getTestCameras();
if (cameraNames.empty())
throw SkipTestException("No list of tested cameras. Use OPENCV_TEST_CAMERA_LIST parameter");
const int totalFrames = 50; // number of expected frames (summary for all cameras)
const int64 timeoutNS = 100 * 1000000;
const Size frameSize(640, 480);
const int fpsDefaultEven = 30;
const int fpsDefaultOdd = 15;
std::vector<VideoCapture> cameras;
for (size_t i = 0; i < cameraNames.size(); ++i)
{
const auto& name = cameraNames[i];
int fps = (int)utils::getConfigurationParameterSizeT(cv::format("OPENCV_TEST_CAMERA%d_FPS", (int)i).c_str(), (i & 1) ? fpsDefaultOdd : fpsDefaultEven);
std::cout << "Camera[" << i << "] = '" << name << "', fps=" << fps << std::endl;
VideoCapture cap(name, CAP_V4L);
ASSERT_TRUE(cap.isOpened()) << name;
EXPECT_TRUE(cap.set(CAP_PROP_FRAME_WIDTH, frameSize.width)) << name;
EXPECT_TRUE(cap.set(CAP_PROP_FRAME_HEIGHT, frameSize.height)) << name;
EXPECT_TRUE(cap.set(CAP_PROP_FPS, fps)) << name;
//launch cameras
Mat firstFrame;
EXPECT_TRUE(cap.read(firstFrame));
EXPECT_EQ(frameSize.width, firstFrame.cols);
EXPECT_EQ(frameSize.height, firstFrame.rows);
cameras.push_back(cap);
}
std::vector<size_t> frameFromCamera(cameraNames.size(), 0);
{
int counter = 0;
std::vector<int> cameraReady;
do
{
EXPECT_TRUE(VideoCapture::waitAny(cameras, cameraReady, timeoutNS));
EXPECT_FALSE(cameraReady.empty());
for (int idx : cameraReady)
{
//std::cout << "Reading frame from camera: " << idx << std::endl;
ASSERT_TRUE(idx >= 0 && (size_t)idx < cameras.size()) << idx;
VideoCapture& c = cameras[idx];
Mat frame;
#if 1
ASSERT_TRUE(c.retrieve(frame)) << idx;
#else
ASSERT_TRUE(c.read(frame)) << idx;
#endif
EXPECT_EQ(frameSize.width, frame.cols) << idx;
EXPECT_EQ(frameSize.height, frame.rows) << idx;
++frameFromCamera[idx];
++counter;
}
}
while(counter < totalFrames);
}
for (size_t i = 0; i < cameraNames.size(); ++i)
{
EXPECT_GT(frameFromCamera[i], (size_t)0) << i;
}
}
}} // namespace