// 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 #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; using GMat3 = std::tuple; using GScalar = cv::GScalar; template using GArray = cv::GArray; using ArrayT = int; using WrongArrayT = char; GAPI_TRANSFORM(gmat_in_gmat_out, , "gmat_in_gmat_out") { static GMat pattern(GMat) { return {}; } static GMat substitute(GMat) { return {}; } }; GAPI_TRANSFORM(gmat2_in_gmat_out, , "gmat2_in_gmat_out") { static GMat pattern(GMat, GMat) { return {}; } static GMat substitute(GMat, GMat) { return {}; } }; GAPI_TRANSFORM(gmat2_in_gmat3_out, , "gmat2_in_gmat3_out") { static GMat3 pattern(GMat, GMat) { return {}; } static GMat3 substitute(GMat, GMat) { return {}; } }; GAPI_TRANSFORM(gmatp_in_gmatp_out, , "gmatp_in_gmatp_out") { static GMatP pattern(GMatP) { return {}; } static GMatP substitute(GMatP) { return {}; } }; GAPI_TRANSFORM(gsc_in_gmat_out, , "gsc_in_gmat_out") { static GMat pattern(GScalar) { return {}; } static GMat substitute(GScalar) { return {}; } }; GAPI_TRANSFORM(gmat_in_gsc_out, , "gmat_in_gsc_out") { static GScalar pattern(GMat) { return {}; } static GScalar substitute(GMat) { return {}; } }; GAPI_TRANSFORM(garr_in_gmat_out, )>, "garr_in_gmat_out") { static GMat pattern(GArray) { return {}; } static GMat substitute(GArray) { return {}; } }; GAPI_TRANSFORM(gmat_in_garr_out, (GMat)>, "gmat_in_garr_out") { static GArray pattern(GMat) { return {}; } static GArray substitute(GMat) { return {}; } }; GAPI_TRANSFORM(garr_in_gscalar_out, )>, "garr_in_gscalar_out") { static GScalar pattern(GArray) { return {}; } static GScalar substitute(GArray) { return {}; } }; GAPI_TRANSFORM(gscalar_in_garr_out, (GScalar)>, "gscalar_in_garr_out") { static GArray pattern(GScalar) { return {}; } static GArray substitute(GScalar) { return {}; } }; GAPI_TRANSFORM(gmat_gsc_garray_in_gmat2_out, )>, "gmat_gsc_garray_in_gmat2_out") { static GMat2 pattern(GMat, GScalar, GArray) { return {}; } static GMat2 substitute(GMat, GScalar, GArray) { 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 >(); auto tr = pkg.get_transformations(); EXPECT_EQ(11u, tr.size()); } TEST(KernelPackageTransform, Include) { cv::gapi::GKernelPackage pkg; pkg.include(); pkg.include(); pkg.include(); auto tr = pkg.get_transformations(); EXPECT_EQ(3u, tr.size()); } TEST(KernelPackageTransform, Combine) { auto pkg1 = cv::gapi::kernels(); auto pkg2 = cv::gapi::kernels(); auto pkg_comb = cv::gapi::combine(pkg1, pkg2); auto tr = pkg_comb.get_transformations(); EXPECT_EQ(2u, tr.size()); } namespace { template inline bool ProtoContainsT(const cv::GProtoArg &arg) { return cv::GProtoArg::index_of() == 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(p.m_ins[0])); EXPECT_TRUE(ProtoContainsT(p.m_ins[1])); EXPECT_TRUE(ProtoContainsT(p.m_ins[2])); EXPECT_TRUE(cv::util::get(p.m_ins[2]).holds()); EXPECT_FALSE(cv::util::get(p.m_ins[2]).holds()); EXPECT_TRUE(ProtoContainsT(p.m_outs[0])); EXPECT_TRUE(ProtoContainsT(p.m_outs[1])); }; check(tr.pattern()); check(tr.substitute()); } namespace { template typename std::enable_if<(cv::detail::GTypeTraits::kind == cv::detail::ArgKind::GARRAY), void>::type arg_check(const cv::GProtoArg &arg) { EXPECT_TRUE(ProtoContainsT(arg)); EXPECT_TRUE(cv::util::get(arg).holds()); EXPECT_FALSE(cv::util::get(arg).holds()); } template typename std::enable_if<(cv::detail::GTypeTraits::kind != cv::detail::ArgKind::GARRAY), void>::type arg_check(const cv::GProtoArg &arg) { EXPECT_TRUE(ProtoContainsT(arg)); } template 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()); arg_check(p.m_ins[0]); arg_check(p.m_outs[0]); } } // anonymous namespace template static void transformTest() { auto tr = Transformation::transformation(); args_check(tr.pattern()); args_check(tr.substitute()); } TEST(KernelPackageTransform, gmat_in_gmat_out) { transformTest(); } TEST(KernelPackageTransform, gmatp_in_gmatp_out) { transformTest(); } TEST(KernelPackageTransform, gsc_in_gmat_out) { transformTest(); } TEST(KernelPackageTransform, gmat_in_gsc_out) { transformTest(); } TEST(KernelPackageTransform, garr_in_gmat_out) { transformTest, GMat>(); } TEST(KernelPackageTransform, gmat_in_garr_out) { transformTest>(); } TEST(KernelPackageTransform, garr_in_gscalar_out) { transformTest, GScalar>(); } TEST(KernelPackageTransform, gscalar_in_garr_out) { transformTest>(); } } // namespace opencv_test