opencv/modules/gapi/test/gapi_array_tests.cpp
Dmitry Matveev 29e88e50ff Merge pull request #12608 from dmatveev:gapi
* G-API Initial code upload

* Update G-API code base to Sep-24-2018

* The majority of OpenCV buildbot problems was addressed

* Update G-API code base to 24-Sep-18 EOD

* G-API code base update 25-Sep-2018

* Linux warnings should be resolved
* Documentation build should become green
* Number of Windows warnings should be reduced

* Update G-API code base to 25-Sep-18 EOD

* ARMv7 build issue should be resolved
* ADE is bumped to latest version and should fix Clang builds for macOS/iOS
* Remaining Windows warnings should be resolved
* New Linux32 / ARMv7 warnings should be resolved

* G-API code base update 25-Sep-2018-EOD2

* Final Windows warnings should be resolved now

* G-API code base update 26-Sep-2018

* Fixed issues with precompiled headers in module and its tests
2018-09-26 21:50:39 +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.
//
// Copyright (C) 2018 Intel Corporation
#include "test_precomp.hpp"
#include <vector>
#include <ade/util/algorithm.hpp>
namespace opencv_test
{
namespace ThisTest
{
using GPointArray = cv::GArray<cv::Point>;
G_TYPED_KERNEL(GeneratePoints, <GPointArray(GMat)>, "test.array.out_const")
{
static GArrayDesc outMeta(const GMatDesc&) { return empty_array_desc(); }
};
G_TYPED_KERNEL(FindCorners, <GPointArray(GMat)>, "test.array.out")
{
static GArrayDesc outMeta(const GMatDesc&) { return empty_array_desc(); }
};
G_TYPED_KERNEL(CountCorners, <GScalar(GPointArray)>, "test.array.in")
{
static GScalarDesc outMeta(const GArrayDesc &) { return empty_scalar_desc(); }
};
} // namespace ThisTest
namespace
{
GAPI_OCV_KERNEL(OCVGeneratePoints, ThisTest::GeneratePoints)
{
static void run(cv::Mat, std::vector<cv::Point> &out)
{
for (int i = 0; i < 10; i++)
out.emplace_back(i, i);
}
};
GAPI_OCV_KERNEL(OCVFindCorners, ThisTest::FindCorners)
{
static void run(cv::Mat in, std::vector<cv::Point> &out)
{
cv::goodFeaturesToTrack(in, out, 1024, 0.01, 3);
}
};
GAPI_OCV_KERNEL(OCVCountCorners, ThisTest::CountCorners)
{
static void run(const std::vector<cv::Point> &in, cv::Scalar &out)
{
out[0] = static_cast<double>(in.size());
}
};
cv::Mat cross(int w, int h)
{
cv::Mat mat = cv::Mat::eye(h, w, CV_8UC1)*255;
cv::Mat yee;
cv::flip(mat, yee, 0); // X-axis
mat |= yee; // make an "X" matrix;
return mat;
}
} // (anonymous namespace)
TEST(GArray, TestReturnValue)
{
// FIXME: Make .apply() able to take compile arguments
cv::GComputationT<ThisTest::GPointArray(cv::GMat)> c(ThisTest::FindCorners::on);
auto cc = c.compile(cv::GMatDesc{CV_8U,1,{32,32}},
cv::compile_args(cv::gapi::kernels<OCVFindCorners>()));
// Prepare input matrix
cv::Mat input = cross(32, 32);
std::vector<cv::Point> points;
cc(input, points);
// OCV goodFeaturesToTrack should find 5 points here (with these settings)
EXPECT_EQ(5u, points.size());
EXPECT_TRUE(ade::util::find(points, cv::Point(16,16)) != points.end());
EXPECT_TRUE(ade::util::find(points, cv::Point(30,30)) != points.end());
EXPECT_TRUE(ade::util::find(points, cv::Point( 1,30)) != points.end());
EXPECT_TRUE(ade::util::find(points, cv::Point(30, 1)) != points.end());
EXPECT_TRUE(ade::util::find(points, cv::Point( 1, 1)) != points.end());
}
TEST(GArray, TestInputArg)
{
cv::GComputationT<cv::GScalar(ThisTest::GPointArray)> c(ThisTest::CountCorners::on);
auto cc = c.compile(cv::empty_array_desc(),
cv::compile_args(cv::gapi::kernels<OCVCountCorners>()));
const std::vector<cv::Point> arr = {cv::Point(1,1), cv::Point(2,2)};
cv::Scalar out;
cc(arr, out);
EXPECT_EQ(2, out[0]);
}
TEST(GArray, TestPipeline)
{
cv::GComputationT<cv::GScalar(cv::GMat)> c([](cv::GMat in)
{
return ThisTest::CountCorners::on(ThisTest::FindCorners::on(in));
});
auto cc = c.compile(cv::GMatDesc{CV_8U,1,{32,32}},
cv::compile_args(cv::gapi::kernels<OCVFindCorners, OCVCountCorners>()));
cv::Mat input = cross(32, 32);
cv::Scalar out;
cc(input, out);
EXPECT_EQ(5, out[0]);
}
TEST(GArray, NoAggregationBetweenRuns)
{
cv::GComputationT<cv::GScalar(cv::GMat)> c([](cv::GMat in)
{
return ThisTest::CountCorners::on(ThisTest::GeneratePoints::on(in));
});
auto cc = c.compile(cv::GMatDesc{CV_8U,1,{32,32}},
cv::compile_args(cv::gapi::kernels<OCVGeneratePoints, OCVCountCorners>()));
cv::Mat input = cv::Mat::eye(32, 32, CV_8UC1);
cv::Scalar out;
cc(input, out);
EXPECT_EQ(10, out[0]);
// Last kernel in the graph counts number of elements in array, returned by the previous kernel
// (in this test, this variable is constant).
// After 10 executions, this number MUST remain the same - 1st kernel is adding new values on every
// run, but it is graph's responsibility to reset internal object state.
cv::Scalar out2;
for (int i = 0; i < 10; i++)
{
cc(input, out2);
}
EXPECT_EQ(10, out2[0]);
}
TEST(GArray, TestIntermediateOutput)
{
using Result = std::tuple<ThisTest::GPointArray, cv::GScalar>;
cv::GComputationT<Result(cv::GMat)> c([](cv::GMat in)
{
auto corners = ThisTest::GeneratePoints::on(in);
return std::make_tuple(corners, ThisTest::CountCorners::on(corners));
});
cv::Mat in_mat = cv::Mat::eye(32, 32, CV_8UC1);
std::vector<cv::Point> out_points;
cv::Scalar out_count;
auto cc = c.compile(cv::descr_of(in_mat),
cv::compile_args(cv::gapi::kernels<OCVGeneratePoints, OCVCountCorners>()));
cc(in_mat, out_points, out_count);
EXPECT_EQ(10u, out_points.size());
EXPECT_EQ(10, out_count[0]);
}
} // namespace opencv_test