opencv/modules/gapi/test/gapi_transform_tests.cpp

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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) 2019 Intel Corporation
#include <tuple>
#include "test_precomp.hpp"
#include "opencv2/gapi/gtransform.hpp"
#include "opencv2/gapi/gtype_traits.hpp"
// explicit include to use GComputation::Priv
#include "api/gcomputation_priv.hpp"
namespace opencv_test
{
namespace
{
using GMat = cv::GMat;
using GMat2 = std::tuple<GMat, GMat>;
using GMat3 = std::tuple<GMat, GMat, GMat>;
using GScalar = cv::GScalar;
template <typename T> using GArray = cv::GArray<T>;
template <typename T> using GOpaque = cv::GOpaque<T>;
using ArrayT = int;
using WrongArrayT = char;
struct CustomType{
cv::Mat mat;
int i;
void *v;
CustomType* next;
};
struct AnotherCustomType{
cv::Mat mat;
int i;
void *v;
};
using OpaqueT = CustomType;
using WrongOpaqueT = AnotherCustomType;
GAPI_TRANSFORM(gmat_in_gmat_out, <GMat(GMat)>, "gmat_in_gmat_out")
{
static GMat pattern(GMat) { return {}; }
static GMat substitute(GMat) { return {}; }
};
GAPI_TRANSFORM(gmat2_in_gmat_out, <GMat(GMat, GMat)>, "gmat2_in_gmat_out")
{
static GMat pattern(GMat, GMat) { return {}; }
static GMat substitute(GMat, GMat) { return {}; }
};
GAPI_TRANSFORM(gmat2_in_gmat3_out, <GMat3(GMat, GMat)>, "gmat2_in_gmat3_out")
{
static GMat3 pattern(GMat, GMat) { return {}; }
static GMat3 substitute(GMat, GMat) { return {}; }
};
GAPI_TRANSFORM(gmatp_in_gmatp_out, <GMatP(GMatP)>, "gmatp_in_gmatp_out")
{
static GMatP pattern(GMatP) { return {}; }
static GMatP substitute(GMatP) { return {}; }
};
GAPI_TRANSFORM(gsc_in_gmat_out, <GMat(GScalar)>, "gsc_in_gmat_out")
{
static GMat pattern(GScalar) { return {}; }
static GMat substitute(GScalar) { return {}; }
};
GAPI_TRANSFORM(gmat_in_gsc_out, <GScalar(GMat)>, "gmat_in_gsc_out")
{
static GScalar pattern(GMat) { return {}; }
static GScalar substitute(GMat) { return {}; }
};
GAPI_TRANSFORM(garr_in_gmat_out, <GMat(GArray<ArrayT>)>, "garr_in_gmat_out")
{
static GMat pattern(GArray<ArrayT>) { return {}; }
static GMat substitute(GArray<ArrayT>) { return {}; }
};
GAPI_TRANSFORM(gmat_in_garr_out, <GArray<ArrayT>(GMat)>, "gmat_in_garr_out")
{
static GArray<ArrayT> pattern(GMat) { return {}; }
static GArray<ArrayT> substitute(GMat) { return {}; }
};
GAPI_TRANSFORM(garr_in_gscalar_out, <GScalar(GArray<ArrayT>)>, "garr_in_gscalar_out")
{
static GScalar pattern(GArray<ArrayT>) { return {}; }
static GScalar substitute(GArray<ArrayT>) { return {}; }
};
GAPI_TRANSFORM(gscalar_in_garr_out, <GArray<ArrayT>(GScalar)>, "gscalar_in_garr_out")
{
static GArray<ArrayT> pattern(GScalar) { return {}; }
static GArray<ArrayT> substitute(GScalar) { return {}; }
};
GAPI_TRANSFORM(gmat_gsc_garray_in_gmat2_out, <GMat2(GMat, GScalar, GArray<ArrayT>)>, "gmat_gsc_garray_in_gmat2_out")
{
static GMat2 pattern(GMat, GScalar, GArray<ArrayT>) { return {}; }
static GMat2 substitute(GMat, GScalar, GArray<ArrayT>) { return {}; }
};
GAPI_TRANSFORM(gop_in_gmat_out, <GMat(GOpaque<OpaqueT>)>, "gop_in_gmat_out")
{
static GMat pattern(GOpaque<OpaqueT>) { return {}; }
static GMat substitute(GOpaque<OpaqueT>) { return {}; }
};
GAPI_TRANSFORM(gmat_in_gop_out, <GOpaque<OpaqueT>(GMat)>, "gmat_in_gop_out")
{
static GOpaque<OpaqueT> pattern(GMat) { return {}; }
static GOpaque<OpaqueT> substitute(GMat) { return {}; }
};
GAPI_TRANSFORM(gop_in_gscalar_out, <GScalar(GOpaque<OpaqueT>)>, "gop_in_gscalar_out")
{
static GScalar pattern(GOpaque<OpaqueT>) { return {}; }
static GScalar substitute(GOpaque<OpaqueT>) { return {}; }
};
GAPI_TRANSFORM(gscalar_in_gop_out, <GOpaque<OpaqueT>(GScalar)>, "gscalar_in_gop_out")
{
static GOpaque<OpaqueT> pattern(GScalar) { return {}; }
static GOpaque<OpaqueT> substitute(GScalar) { return {}; }
};
GAPI_TRANSFORM(gmat_gsc_gopaque_in_gmat2_out, <GMat2(GMat, GScalar, GOpaque<OpaqueT>)>, "gmat_gsc_gopaque_in_gmat2_out")
{
static GMat2 pattern(GMat, GScalar, GOpaque<OpaqueT>) { return {}; }
static GMat2 substitute(GMat, GScalar, GOpaque<OpaqueT>) { return {}; }
};
} // anonymous namespace
TEST(KernelPackageTransform, CreatePackage)
{
auto pkg = cv::gapi::kernels
< gmat_in_gmat_out
, gmat2_in_gmat_out
, gmat2_in_gmat3_out
, gmatp_in_gmatp_out
, gsc_in_gmat_out
, gmat_in_gsc_out
, garr_in_gmat_out
, gmat_in_garr_out
, garr_in_gscalar_out
, gscalar_in_garr_out
, gmat_gsc_garray_in_gmat2_out
, gop_in_gmat_out
, gmat_in_gop_out
, gop_in_gscalar_out
, gscalar_in_gop_out
, gmat_gsc_gopaque_in_gmat2_out
>();
auto tr = pkg.get_transformations();
EXPECT_EQ(16u, tr.size());
}
TEST(KernelPackageTransform, Include)
{
cv::gapi::GKernelPackage pkg;
pkg.include<gmat_in_gmat_out>();
pkg.include<gmat2_in_gmat_out>();
pkg.include<gmat2_in_gmat3_out>();
auto tr = pkg.get_transformations();
EXPECT_EQ(3u, tr.size());
}
TEST(KernelPackageTransform, Combine)
{
auto pkg1 = cv::gapi::kernels<gmat_in_gmat_out>();
auto pkg2 = cv::gapi::kernels<gmat2_in_gmat_out>();
auto pkg_comb = cv::gapi::combine(pkg1, pkg2);
auto tr = pkg_comb.get_transformations();
EXPECT_EQ(2u, tr.size());
}
namespace
{
template <typename T>
inline bool ProtoContainsT(const cv::GProtoArg &arg) {
return cv::GProtoArg::index_of<T>() == arg.index();
}
} // anonymous namespace
TEST(KernelPackageTransform, gmat_gsc_garray_in_gmat2_out)
{
auto tr = gmat_gsc_garray_in_gmat2_out::transformation();
auto check = [](const cv::GComputation &comp){
const auto &p = comp.priv();
EXPECT_EQ(3u, p.m_ins.size());
EXPECT_EQ(2u, p.m_outs.size());
EXPECT_TRUE(ProtoContainsT<GMat>(p.m_ins[0]));
EXPECT_TRUE(ProtoContainsT<GScalar>(p.m_ins[1]));
EXPECT_TRUE(ProtoContainsT<cv::detail::GArrayU>(p.m_ins[2]));
EXPECT_TRUE(cv::util::get<cv::detail::GArrayU>(p.m_ins[2]).holds<ArrayT>());
EXPECT_FALSE(cv::util::get<cv::detail::GArrayU>(p.m_ins[2]).holds<WrongArrayT>());
EXPECT_TRUE(ProtoContainsT<GMat>(p.m_outs[0]));
EXPECT_TRUE(ProtoContainsT<GMat>(p.m_outs[1]));
};
check(tr.pattern());
check(tr.substitute());
}
TEST(KernelPackageTransform, gmat_gsc_gopaque_in_gmat2_out)
{
auto tr = gmat_gsc_gopaque_in_gmat2_out::transformation();
auto check = [](const cv::GComputation &comp){
const auto &p = comp.priv();
EXPECT_EQ(3u, p.m_ins.size());
EXPECT_EQ(2u, p.m_outs.size());
EXPECT_TRUE(ProtoContainsT<GMat>(p.m_ins[0]));
EXPECT_TRUE(ProtoContainsT<GScalar>(p.m_ins[1]));
EXPECT_TRUE(ProtoContainsT<cv::detail::GOpaqueU>(p.m_ins[2]));
EXPECT_TRUE(cv::util::get<cv::detail::GOpaqueU>(p.m_ins[2]).holds<OpaqueT>());
EXPECT_FALSE(cv::util::get<cv::detail::GOpaqueU>(p.m_ins[2]).holds<WrongOpaqueT>());
EXPECT_TRUE(ProtoContainsT<GMat>(p.m_outs[0]));
EXPECT_TRUE(ProtoContainsT<GMat>(p.m_outs[1]));
};
check(tr.pattern());
check(tr.substitute());
}
namespace
{
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template<typename ArgT>
typename std::enable_if<(cv::detail::GTypeTraits<ArgT>::kind == cv::detail::ArgKind::GARRAY), void>::type
arg_check(const cv::GProtoArg &arg)
{
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EXPECT_TRUE(ProtoContainsT<cv::detail::GArrayU>(arg));
EXPECT_TRUE(cv::util::get<cv::detail::GArrayU>(arg).holds<ArrayT>());
EXPECT_FALSE(cv::util::get<cv::detail::GArrayU>(arg).holds<WrongArrayT>());
}
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template<typename ArgT>
typename std::enable_if<(cv::detail::GTypeTraits<ArgT>::kind == cv::detail::ArgKind::GOPAQUE), void>::type
arg_check(const cv::GProtoArg &arg)
{
EXPECT_TRUE(ProtoContainsT<cv::detail::GOpaqueU>(arg));
EXPECT_TRUE(cv::util::get<cv::detail::GOpaqueU>(arg).holds<OpaqueT>());
EXPECT_FALSE(cv::util::get<cv::detail::GOpaqueU>(arg).holds<WrongOpaqueT>());
}
template<typename ArgT>
typename std::enable_if<(cv::detail::GTypeTraits<ArgT>::kind != cv::detail::ArgKind::GARRAY &&
cv::detail::GTypeTraits<ArgT>::kind != cv::detail::ArgKind::GOPAQUE), void>::type
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arg_check(const cv::GProtoArg &arg)
{
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EXPECT_TRUE(ProtoContainsT<ArgT>(arg));
}
template<typename InType, typename OutType>
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void args_check(const cv::GComputation &comp)
{
const auto &p = comp.priv();
EXPECT_EQ(1u, p.m_ins.size());
EXPECT_EQ(1u, p.m_outs.size());
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arg_check<InType>(p.m_ins[0]);
arg_check<OutType>(p.m_outs[0]);
}
} // anonymous namespace
template <typename Transformation, typename InType, typename OutType>
static void transformTest()
{
auto tr = Transformation::transformation();
args_check<InType, OutType>(tr.pattern());
args_check<InType, OutType>(tr.substitute());
}
TEST(KernelPackageTransform, gmat_in_gmat_out)
{
transformTest<gmat_in_gmat_out, GMat, GMat>();
}
TEST(KernelPackageTransform, gmatp_in_gmatp_out)
{
transformTest<gmatp_in_gmatp_out, GMatP, GMatP>();
}
TEST(KernelPackageTransform, gsc_in_gmat_out)
{
transformTest<gsc_in_gmat_out, GScalar, GMat>();
}
TEST(KernelPackageTransform, gmat_in_gsc_out)
{
transformTest<gmat_in_gsc_out, GMat, GScalar>();
}
TEST(KernelPackageTransform, garr_in_gmat_out)
{
transformTest<garr_in_gmat_out, GArray<ArrayT>, GMat>();
}
TEST(KernelPackageTransform, gmat_in_garr_out)
{
transformTest<gmat_in_garr_out, GMat, GArray<ArrayT>>();
}
TEST(KernelPackageTransform, garr_in_gscalar_out)
{
transformTest<garr_in_gscalar_out, GArray<ArrayT>, GScalar>();
}
TEST(KernelPackageTransform, gscalar_in_garr_out)
{
transformTest<gscalar_in_garr_out, GScalar, GArray<ArrayT>>();
}
TEST(KernelPackageTransform, gop_in_gmat_out)
{
transformTest<gop_in_gmat_out, GOpaque<OpaqueT>, GMat>();
}
TEST(KernelPackageTransform, gmat_in_gop_out)
{
transformTest<gmat_in_gop_out, GMat, GOpaque<OpaqueT>>();
}
TEST(KernelPackageTransform, gop_in_gscalar_out)
{
transformTest<gop_in_gscalar_out, GOpaque<OpaqueT>, GScalar>();
}
TEST(KernelPackageTransform, gscalar_in_gop_out)
{
transformTest<gscalar_in_gop_out, GScalar, GOpaque<OpaqueT>>();
}
} // namespace opencv_test