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40b238b01db2d7f06df63c20a2e36d18089de8d1
opencv_contrib/modules/ximgproc/test/test_sparse_match_interpolator.cpp
Tobias Senst 40b238b01d Merge pull request #2367 from tsenst:add_robust_interpolation_of_correspondence 
Add RIC method for sparse match interpolation

* * add RIC

* sparse_match_interpolators EdgeAwareInterpolation - enhance limitation of the maximal number of matches to be interpolated from SHORT_MAX to INT_MAX by substituting short by int types

* * add RIC citation

* * update EdgeAwareInterpolatorImpl

* * add intermediate RIC implementation

* * implementation of new paralelization classes. First test where sucessfull.

* * update documentation RICInterpolatorImpl and RLOF

* * update CMakeLists.txt remove highgui
* add test for RIC
* add ASSERTION for curr image

* * add cost map interface

* * fix internal cost map allocation bug

* * remove white spaces
* fix warnings

* *fix compiler warnings

* * remove double whitespaces
* underscore from parameters
* substitute parallel_for_() classes with lambda functions
* remove complex assertion statements
* remove dead code
* substitute swap function with std::swap()
* ocv_define_module now contains video instead of tracking module

* * remove whitespace endings

* * documentation update

* * remove double declarations that lead to warnings

* * unrole tracker.py
*  remove double space
* use static for inner functions
* update create function
* modify mem init. to avoid manual memory management

* * uncomment parallel_for_ for parallelization

* * unrole unwanted changes
* uncomment paralellization

* * remove empty comment
* change CHECK to CHK_GD
* remove not necessary ;

* *documentation remove double space
2019-12-09 18:46:16 +03:00

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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.
#include "test_precomp.hpp"
#include "opencv2/ximgproc/sparse_match_interpolator.hpp"
namespace opencv_test { namespace {
static string getDataDir()
{
return cvtest::TS::ptr()->get_data_path();
}
const float FLOW_TAG_FLOAT = 202021.25f;
Mat readOpticalFlow( const String& path )
{
// CV_Assert(sizeof(float) == 4);
//FIXME: ensure right sizes of int and float - here and in writeOpticalFlow()
Mat_<Point2f> flow;
std::ifstream file(path.c_str(), std::ios_base::binary);
if ( !file.good() )
return std::move(flow); // no file - return empty matrix
float tag;
file.read((char*) &tag, sizeof(float));
if ( tag != FLOW_TAG_FLOAT )
return std::move(flow);
int width, height;
file.read((char*) &width, 4);
file.read((char*) &height, 4);
flow.create(height, width);
for ( int i = 0; i < flow.rows; ++i )
{
for ( int j = 0; j < flow.cols; ++j )
{
Point2f u;
file.read((char*) &u.x, sizeof(float));
file.read((char*) &u.y, sizeof(float));
if ( !file.good() )
{
flow.release();
return std::move(flow);
}
flow(i, j) = u;
}
}
file.close();
return std::move(flow);
}
CV_ENUM(GuideTypes, CV_8UC1, CV_8UC3)
typedef tuple<Size, GuideTypes> InterpolatorParams;
typedef TestWithParam<InterpolatorParams> InterpolatorTest;
TEST(InterpolatorTest, ReferenceAccuracy)
{
double MAX_DIF = 1.0;
double MAX_MEAN_DIF = 1.0 / 256.0;
string dir = getDataDir() + "cv/sparse_match_interpolator";
Mat src = imread(getDataDir() + "cv/optflow/RubberWhale1.png",IMREAD_COLOR);
ASSERT_FALSE(src.empty());
Mat ref_flow = readOpticalFlow(dir + "/RubberWhale_reference_result.flo");
ASSERT_FALSE(ref_flow.empty());
std::ifstream file((dir + "/RubberWhale_sparse_matches.txt").c_str());
float from_x,from_y,to_x,to_y;
vector<Point2f> from_points;
vector<Point2f> to_points;
while(file >> from_x >> from_y >> to_x >> to_y)
{
from_points.push_back(Point2f(from_x,from_y));
to_points.push_back(Point2f(to_x,to_y));
}
Mat res_flow;
Ptr<EdgeAwareInterpolator> interpolator = createEdgeAwareInterpolator();
interpolator->setK(128);
interpolator->setSigma(0.05f);
interpolator->setUsePostProcessing(true);
interpolator->setFGSLambda(500.0f);
interpolator->setFGSSigma(1.5f);
interpolator->interpolate(src,from_points,Mat(),to_points,res_flow);
EXPECT_LE(cv::norm(res_flow, ref_flow, NORM_INF), MAX_DIF);
EXPECT_LE(cv::norm(res_flow, ref_flow, NORM_L1) , MAX_MEAN_DIF*res_flow.total());
}
TEST(InterpolatorTest, RICReferenceAccuracy)
{
double MAX_DIF = 6.0;
double MAX_MEAN_DIF = 60.0 / 256.0;
string dir = getDataDir() + "cv/sparse_match_interpolator";
Mat src = imread(getDataDir() + "cv/optflow/RubberWhale1.png", IMREAD_COLOR);
ASSERT_FALSE(src.empty());
Mat ref_flow = readOpticalFlow(dir + "/RubberWhale_reference_result.flo");
ASSERT_FALSE(ref_flow.empty());
Mat src1 = imread(getDataDir() + "cv/optflow/RubberWhale2.png", IMREAD_COLOR);
ASSERT_FALSE(src.empty());
std::ifstream file((dir + "/RubberWhale_sparse_matches.txt").c_str());
float from_x, from_y, to_x, to_y;
vector<Point2f> from_points;
vector<Point2f> to_points;
while (file >> from_x >> from_y >> to_x >> to_y)
{
from_points.push_back(Point2f(from_x, from_y));
to_points.push_back(Point2f(to_x, to_y));
}
Mat res_flow;
Ptr<RICInterpolator> interpolator = createRICInterpolator();
interpolator->setK(32);
interpolator->setSuperpixelSize(15);
interpolator->setSuperpixelNNCnt(150);
interpolator->setSuperpixelRuler(15.f);
interpolator->setSuperpixelMode(ximgproc::SLIC);
interpolator->setAlpha(0.7f);
interpolator->setModelIter(4);
interpolator->setRefineModels(true);
interpolator->setMaxFlow(250.f);
interpolator->setUseVariationalRefinement(true);
interpolator->setUseGlobalSmootherFilter(true);
interpolator->setFGSLambda(500.f);
interpolator->setFGSSigma(1.5f);
interpolator->interpolate(src, from_points, src1, to_points, res_flow);
EXPECT_LE(cv::norm(res_flow, ref_flow, NORM_INF), MAX_DIF);
EXPECT_LE(cv::norm(res_flow, ref_flow, NORM_L1), MAX_MEAN_DIF*res_flow.total());
}
TEST_P(InterpolatorTest, MultiThreadReproducibility)
{
if (cv::getNumberOfCPUs() == 1)
return;
double MAX_DIF = 1.0;
double MAX_MEAN_DIF = 1.0 / 256.0;
int loopsCount = 2;
RNG rng(0);
InterpolatorParams params = GetParam();
Size size = get<0>(params);
int guideType = get<1>(params);
Mat from(size, guideType);
randu(from, 0, 255);
int num_matches = rng.uniform(5,SHRT_MAX-1);
vector<Point2f> from_points;
vector<Point2f> to_points;
for(int i=0;i<num_matches;i++)
{
from_points.push_back(Point2f(rng.uniform(0.01f,(float)size.width-1.01f),rng.uniform(0.01f,(float)size.height-1.01f)));
to_points.push_back(Point2f(rng.uniform(0.01f,(float)size.width-1.01f),rng.uniform(0.01f,(float)size.height-1.01f)));
}
int nThreads = cv::getNumThreads();
if (nThreads == 1)
throw SkipTestException("Single thread environment");
for (int iter = 0; iter <= loopsCount; iter++)
{
int K = rng.uniform(4,512);
float sigma = rng.uniform(0.01f,0.5f);
float FGSlambda = rng.uniform(100.0f, 10000.0f);
float FGSsigma = rng.uniform(0.5f, 100.0f);
Ptr<EdgeAwareInterpolator> interpolator = createEdgeAwareInterpolator();
interpolator->setK(K);
interpolator->setSigma(sigma);
interpolator->setUsePostProcessing(true);
interpolator->setFGSLambda(FGSlambda);
interpolator->setFGSSigma(FGSsigma);
cv::setNumThreads(nThreads);
Mat resMultiThread;
interpolator->interpolate(from,from_points,Mat(),to_points,resMultiThread);
cv::setNumThreads(1);
Mat resSingleThread;
interpolator->interpolate(from,from_points,Mat(),to_points,resSingleThread);
EXPECT_LE(cv::norm(resSingleThread, resMultiThread, NORM_INF), MAX_DIF);
EXPECT_LE(cv::norm(resSingleThread, resMultiThread, NORM_L1) , MAX_MEAN_DIF*resMultiThread.total());
}
}
INSTANTIATE_TEST_CASE_P(FullSet,InterpolatorTest, Combine(Values(szODD,szVGA), GuideTypes::all()));
}} // namespace
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