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// 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) 2020 Intel Corporation
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#include <tuple>
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#include <unordered_set>
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#include "test_precomp.hpp"
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#include "opencv2/gapi/streaming/meta.hpp"
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#include "opencv2/gapi/streaming/cap.hpp"
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namespace opencv_test {
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namespace {
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void initTestDataPath() {
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#ifndef WINRT
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static bool initialized = false;
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if (!initialized)
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{
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// Since G-API has no own test data (yet), it is taken from the common space
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const char* testDataPath = getenv("OPENCV_TEST_DATA_PATH");
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if (testDataPath != nullptr) {
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cvtest::addDataSearchPath(testDataPath);
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initialized = true;
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}
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}
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#endif // WINRT
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}
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} // anonymous namespace
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TEST(GraphMeta, Trad_AccessInput) {
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cv::GMat in;
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cv::GMat out1 = cv::gapi::blur(in, cv::Size(3,3));
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cv::GOpaque<int> out2 = cv::gapi::streaming::meta<int>(in, "foo");
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cv::GComputation graph(cv::GIn(in), cv::GOut(out1, out2));
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cv::Mat in_mat = cv::Mat::eye(cv::Size(64, 64), CV_8UC1);
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cv::Mat out_mat;
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int out_meta = 0;
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// manually set metadata in the input fields
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auto inputs = cv::gin(in_mat);
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inputs[0].meta["foo"] = 42;
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graph.apply(std::move(inputs), cv::gout(out_mat, out_meta));
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EXPECT_EQ(42, out_meta);
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}
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TEST(GraphMeta, Trad_AccessTmp) {
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cv::GMat in;
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cv::GMat tmp = cv::gapi::blur(in, cv::Size(3,3));
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cv::GMat out1 = tmp+1;
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cv::GOpaque<float> out2 = cv::gapi::streaming::meta<float>(tmp, "bar");
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cv::GComputation graph(cv::GIn(in), cv::GOut(out1, out2));
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cv::Mat in_mat = cv::Mat::eye(cv::Size(64, 64), CV_8UC1);
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cv::Mat out_mat;
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float out_meta = 0.f;
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// manually set metadata in the input fields
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auto inputs = cv::gin(in_mat);
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inputs[0].meta["bar"] = 1.f;
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graph.apply(std::move(inputs), cv::gout(out_mat, out_meta));
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EXPECT_EQ(1.f, out_meta);
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}
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TEST(GraphMeta, Trad_AccessOutput) {
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cv::GMat in;
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cv::GMat out1 = cv::gapi::blur(in, cv::Size(3,3));
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cv::GOpaque<std::string> out2 = cv::gapi::streaming::meta<std::string>(out1, "baz");
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cv::GComputation graph(cv::GIn(in), cv::GOut(out1, out2));
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cv::Mat in_mat = cv::Mat::eye(cv::Size(64, 64), CV_8UC1);
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cv::Mat out_mat;
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std::string out_meta;
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// manually set metadata in the input fields
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auto inputs = cv::gin(in_mat);
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// NOTE: Assigning explicitly an std::string is important,
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// otherwise a "const char*" will be stored and won't be
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// translated properly by util::any since std::string is
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// used within the graph.
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inputs[0].meta["baz"] = std::string("opencv");
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graph.apply(std::move(inputs), cv::gout(out_mat, out_meta));
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EXPECT_EQ("opencv", out_meta);
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}
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TEST(GraphMeta, Streaming_AccessInput) {
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initTestDataPath();
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cv::GMat in;
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cv::GMat out1 = cv::gapi::blur(in, cv::Size(3,3));
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cv::GOpaque<int64_t> out2 = cv::gapi::streaming::seq_id(in);
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cv::GComputation graph(cv::GIn(in), cv::GOut(out1, out2));
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auto ccomp = graph.compileStreaming();
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const auto path = findDataFile("cv/video/768x576.avi");
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try {
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ccomp.setSource<cv::gapi::wip::GCaptureSource>(path);
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} catch(...) {
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throw SkipTestException("Video file can not be opened");
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}
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ccomp.start();
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cv::Mat out_mat;
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int64_t out_meta = 0;
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int64_t expected_counter = 0;
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while (ccomp.pull(cv::gout(out_mat, out_meta))) {
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EXPECT_EQ(expected_counter, out_meta);
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++expected_counter;
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}
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}
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TEST(GraphMeta, Streaming_AccessOutput) {
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initTestDataPath();
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cv::GMat in;
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cv::GMat out1 = cv::gapi::blur(in, cv::Size(3,3));
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cv::GOpaque<int64_t> out2 = cv::gapi::streaming::seq_id(out1);
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cv::GOpaque<int64_t> out3 = cv::gapi::streaming::timestamp(out1);
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cv::GComputation graph(cv::GIn(in), cv::GOut(out1, out2, out3));
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auto ccomp = graph.compileStreaming();
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const auto path = findDataFile("cv/video/768x576.avi");
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try {
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ccomp.setSource<cv::gapi::wip::GCaptureSource>(path);
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} catch(...) {
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throw SkipTestException("Video file can not be opened");
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}
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ccomp.start();
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cv::Mat out_mat;
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int64_t out_meta = 0;
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int64_t out_timestamp = 0;
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int64_t expected_counter = 0;
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int64_t prev_timestamp = -1;
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while (ccomp.pull(cv::gout(out_mat, out_meta, out_timestamp))) {
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EXPECT_EQ(expected_counter, out_meta);
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++expected_counter;
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EXPECT_NE(prev_timestamp, out_timestamp);
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prev_timestamp = out_timestamp;
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}
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}
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TEST(GraphMeta, Streaming_AccessDesync) {
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initTestDataPath();
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cv::GMat in;
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cv::GOpaque<int64_t> out1 = cv::gapi::streaming::seq_id(in);
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cv::GOpaque<int64_t> out2 = cv::gapi::streaming::timestamp(in);
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cv::GMat out3 = cv::gapi::blur(in, cv::Size(3,3));
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cv::GMat tmp = cv::gapi::streaming::desync(in);
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cv::GScalar mean = cv::gapi::mean(tmp);
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cv::GOpaque<int64_t> out4 = cv::gapi::streaming::seq_id(mean);
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cv::GOpaque<int64_t> out5 = cv::gapi::streaming::timestamp(mean);
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cv::GComputation graph(cv::GIn(in), cv::GOut(out1, out2, out3, out4, out5));
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auto ccomp = graph.compileStreaming();
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const auto path = findDataFile("cv/video/768x576.avi");
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try {
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ccomp.setSource<cv::gapi::wip::GCaptureSource>(path);
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} catch(...) {
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throw SkipTestException("Video file can not be opened");
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}
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ccomp.start();
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cv::optional<int64_t> out_sync_id;
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cv::optional<int64_t> out_sync_ts;
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cv::optional<cv::Mat> out_sync_mat;
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cv::optional<int64_t> out_desync_id;
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cv::optional<int64_t> out_desync_ts;
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std::unordered_set<int64_t> sync_ids;
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std::unordered_set<int64_t> desync_ids;
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while (ccomp.pull(cv::gout(out_sync_id, out_sync_ts, out_sync_mat,
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out_desync_id, out_desync_ts))) {
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if (out_sync_id.has_value()) {
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CV_Assert(out_sync_ts.has_value());
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CV_Assert(out_sync_mat.has_value());
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sync_ids.insert(out_sync_id.value());
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}
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if (out_desync_id.has_value()) {
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CV_Assert(out_desync_ts.has_value());
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desync_ids.insert(out_desync_id.value());
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}
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}
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// Visually report that everything is really ok
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std::cout << sync_ids.size() << " vs " << desync_ids.size() << std::endl;
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// Desync path should generate less objects than the synchronized one
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EXPECT_GE(sync_ids.size(), desync_ids.size());
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// ..but all desynchronized IDs must be present in the synchronized set
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for (auto &&d_id : desync_ids) {
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EXPECT_TRUE(sync_ids.count(d_id) > 0);
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}
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}
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} // namespace opencv_test
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