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6a73e5a720
GAPI: Align EXPECT/ASSERT macros * Align TEST macros * restart CI * Fix ASSERT_GT in gapi_async_test
202 lines
6.1 KiB
C++
202 lines
6.1 KiB
C++
// This file is part of OpenCV project.
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// It is subject to the license terms in the LICENSE file found in the top-level directory
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// of this distribution and at http://opencv.org/license.html.
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//
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// Copyright (C) 2018 Intel Corporation
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#include "../test_precomp.hpp"
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#include "api/gcomputation_priv.hpp"
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namespace opencv_test
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{
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TEST(GMetaArg, Traits_Is_Positive)
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{
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using namespace cv::detail;
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static_assert(is_meta_descr<cv::GScalarDesc>::value,
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"GScalarDesc is a meta description type");
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static_assert(is_meta_descr<cv::GMatDesc>::value,
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"GMatDesc is a meta description type");
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}
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TEST(GMetaArg, Traits_Is_Negative)
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{
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using namespace cv::detail;
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static_assert(!is_meta_descr<cv::GCompileArgs>::value,
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"GCompileArgs is NOT a meta description type");
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static_assert(!is_meta_descr<int>::value,
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"int is NOT a meta description type");
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static_assert(!is_meta_descr<std::string>::value,
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"str::string is NOT a meta description type");
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}
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TEST(GMetaArg, Traits_Are_EntireList_Positive)
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{
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using namespace cv::detail;
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static_assert(are_meta_descrs<cv::GScalarDesc>::value,
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"GScalarDesc is a meta description type");
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static_assert(are_meta_descrs<cv::GMatDesc>::value,
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"GMatDesc is a meta description type");
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static_assert(are_meta_descrs<cv::GMatDesc, cv::GScalarDesc>::value,
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"Both GMatDesc and GScalarDesc are meta types");
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}
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TEST(GMetaArg, Traits_Are_EntireList_Negative)
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{
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using namespace cv::detail;
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static_assert(!are_meta_descrs<cv::GCompileArgs>::value,
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"GCompileArgs is NOT among meta types");
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static_assert(!are_meta_descrs<int, std::string>::value,
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"Both int and std::string is NOT among meta types");
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static_assert(!are_meta_descrs<cv::GMatDesc, cv::GScalarDesc, int>::value,
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"List of type is not valid for meta as there\'s int");
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static_assert(!are_meta_descrs<cv::GMatDesc, cv::GScalarDesc, cv::GCompileArgs>::value,
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"List of type is not valid for meta as there\'s GCompileArgs");
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}
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TEST(GMetaArg, Traits_Are_ButLast_Positive)
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{
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using namespace cv::detail;
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static_assert(are_meta_descrs_but_last<cv::GScalarDesc, int>::value,
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"List is valid (int is omitted)");
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static_assert(are_meta_descrs_but_last<cv::GMatDesc, cv::GScalarDesc, cv::GCompileArgs>::value,
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"List is valid (GCompileArgs are omitted)");
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}
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TEST(GMetaArg, Traits_Are_ButLast_Negative)
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{
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using namespace cv::detail;
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static_assert(!are_meta_descrs_but_last<int, std::string>::value,
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"Both int is NOT among meta types (std::string is omitted)");
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static_assert(!are_meta_descrs_but_last<cv::GMatDesc, cv::GScalarDesc, int, int>::value,
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"List of type is not valid for meta as there\'s two ints");
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static_assert(!are_meta_descrs_but_last<cv::GMatDesc, cv::GScalarDesc, cv::GCompileArgs, float>::value,
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"List of type is not valid for meta as there\'s GCompileArgs");
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}
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TEST(GMetaArg, Can_Get_Metas_From_Input_Run_Args)
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{
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cv::Mat m(3, 3, CV_8UC3);
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cv::Scalar s;
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std::vector<int> v;
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GMatDesc m_desc;
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GMetaArgs meta_args = descr_of(cv::gin(m, s, v));
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EXPECT_EQ(3u, meta_args.size());
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EXPECT_NO_THROW(m_desc = util::get<cv::GMatDesc>(meta_args[0]));
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EXPECT_NO_THROW(util::get<cv::GScalarDesc>(meta_args[1]));
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EXPECT_NO_THROW(util::get<cv::GArrayDesc>(meta_args[2]));
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EXPECT_EQ(CV_8U, m_desc.depth);
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EXPECT_EQ(3, m_desc.chan);
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EXPECT_EQ(cv::gapi::own::Size(3, 3), m_desc.size);
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}
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TEST(GMetaArg, Can_Get_Metas_From_Output_Run_Args)
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{
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cv::Mat m(3, 3, CV_8UC3);
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cv::Scalar s;
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std::vector<int> v;
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GMatDesc m_desc;
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GRunArgsP out_run_args = cv::gout(m, s, v);
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GMetaArg m_meta = descr_of(out_run_args[0]);
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GMetaArg s_meta = descr_of(out_run_args[1]);
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GMetaArg v_meta = descr_of(out_run_args[2]);
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EXPECT_NO_THROW(m_desc = util::get<cv::GMatDesc>(m_meta));
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EXPECT_NO_THROW(util::get<cv::GScalarDesc>(s_meta));
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EXPECT_NO_THROW(util::get<cv::GArrayDesc>(v_meta));
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EXPECT_EQ(CV_8U, m_desc.depth);
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EXPECT_EQ(3, m_desc.chan);
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EXPECT_EQ(cv::Size(3, 3), m_desc.size);
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}
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TEST(GMetaArg, Can_Describe_RunArg)
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{
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cv::Mat m(3, 3, CV_8UC3);
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cv::UMat um(3, 3, CV_8UC3);
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cv::Scalar s;
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constexpr int w = 3, h = 3, c = 3;
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uchar data[w*h*c];
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cv::gapi::own::Mat om(h, w, CV_8UC3, data);
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cv::Scalar os;
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std::vector<int> v;
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GMetaArgs metas = {GMetaArg(descr_of(m)),
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GMetaArg(descr_of(um)),
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GMetaArg(descr_of(s)),
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GMetaArg(descr_of(om)),
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GMetaArg(descr_of(os)),
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GMetaArg(descr_of(v))};
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auto in_run_args = cv::gin(m, um, s, om, os, v);
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for (int i = 0; i < 3; i++) {
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EXPECT_TRUE(can_describe(metas[i], in_run_args[i]));
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}
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}
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TEST(GMetaArg, Can_Describe_RunArgs)
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{
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cv::Mat m(3, 3, CV_8UC3);
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cv::Scalar s;
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std::vector<int> v;
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GMetaArgs metas0 = {GMetaArg(descr_of(m)), GMetaArg(descr_of(s)), GMetaArg(descr_of(v))};
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auto in_run_args0 = cv::gin(m, s, v);
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EXPECT_TRUE(can_describe(metas0, in_run_args0));
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auto in_run_args01 = cv::gin(m, s);
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EXPECT_FALSE(can_describe(metas0, in_run_args01));
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}
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TEST(GMetaArg, Can_Describe_RunArgP)
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{
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cv::Mat m(3, 3, CV_8UC3);
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cv::UMat um(3, 3, CV_8UC3);
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cv::Scalar s;
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constexpr int w = 3, h = 3, c = 3;
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uchar data[w*h*c];
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cv::gapi::own::Mat om(h, w, CV_8UC3, data);
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cv::Scalar os;
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std::vector<int> v;
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GMetaArgs metas = {GMetaArg(descr_of(m)),
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GMetaArg(descr_of(um)),
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GMetaArg(descr_of(s)),
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GMetaArg(descr_of(om)),
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GMetaArg(descr_of(os)),
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GMetaArg(descr_of(v))};
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auto out_run_args = cv::gout(m, um, s, om, os, v);
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for (int i = 0; i < 3; i++) {
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EXPECT_TRUE(can_describe(metas[i], out_run_args[i]));
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}
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}
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} // namespace opencv_test
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