opencv/modules/gapi/test/streaming/gapi_streaming_sync_tests.cpp
2021-03-25 22:15:06 +00:00

221 lines
6.7 KiB
C++

// 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) 2021 Intel Corporation
#include "../test_precomp.hpp"
#include <opencv2/gapi/streaming/cap.hpp>
#include <opencv2/gapi/core.hpp>
#include <opencv2/gapi/fluid/imgproc.hpp>
#include <opencv2/gapi/streaming/cap.hpp>
#include <opencv2/gapi/streaming/sync.hpp>
namespace opencv_test {
namespace {
using ts_t = int64_t;
using ts_vec = std::vector<ts_t>;
using cv::gapi::streaming::sync_policy;
ts_t calcLeastCommonMultiple(const ts_vec& values) {
ts_t res = *std::max_element(values.begin(), values.end());
auto isDivisor = [&](ts_t v) { return res % v == 0; };
while(!std::all_of(values.begin(), values.end(), isDivisor)) {
res++;
}
return res;
}
struct TimestampGenerationParams {
const ts_vec frame_times;
sync_policy policy;
ts_t end_time;
TimestampGenerationParams(const ts_vec& ft, sync_policy sp, ts_t et = 25)
: frame_times(ft), policy(sp), end_time(et) {
}
};
class MultiFrameSource {
class SingleSource : public cv::gapi::wip::IStreamSource {
MultiFrameSource& m_source;
std::size_t m_idx;
public:
SingleSource(MultiFrameSource& s, std::size_t idx)
: m_source(s)
, m_idx(idx)
{}
virtual bool pull(cv::gapi::wip::Data& data) {
return m_source.pull(data, m_idx);
}
virtual GMetaArg descr_of() const { return GMetaArg{m_source.desc()}; }
};
TimestampGenerationParams p;
ts_vec m_current_times;
cv::Mat m_mat;
public:
MultiFrameSource(const TimestampGenerationParams& params)
: p(params)
, m_current_times(p.frame_times.size(), 0u)
, m_mat(8, 8, CV_8UC1) {
}
bool pull(cv::gapi::wip::Data& data, std::size_t idx) {
cv::randn(m_mat, 127, 32);
GAPI_Assert(idx < p.frame_times.size());
m_current_times[idx] += p.frame_times[idx];
if (m_current_times[idx] >= p.end_time) {
return false;
}
data = m_mat.clone();
data.meta[cv::gapi::streaming::meta_tag::timestamp] = m_current_times[idx];
return true;
}
cv::gapi::wip::IStreamSource::Ptr getSource(std::size_t idx) {
return cv::gapi::wip::IStreamSource::Ptr{new SingleSource(*this, idx)};
}
GMatDesc desc() const { return cv::descr_of(m_mat); }
};
class TimestampChecker {
TimestampGenerationParams p;
ts_t m_synced_time = 0u;
ts_t m_synced_frame_time = 0u;
public:
TimestampChecker(const TimestampGenerationParams& params)
: p(params)
, m_synced_frame_time(calcLeastCommonMultiple(p.frame_times)) {
}
void checkNext(const ts_vec& timestamps) {
if (p.policy == sync_policy::dont_sync) {
// don't check timestamps if the policy is dont_sync
return;
}
m_synced_time += m_synced_frame_time;
for (const auto& ts : timestamps) {
EXPECT_EQ(m_synced_time, ts);
}
}
std::size_t nFrames() const {
auto frame_time = p.policy == sync_policy::dont_sync
? *std::max_element(p.frame_times.begin(), p.frame_times.end())
: m_synced_frame_time;
auto n_frames = p.end_time / frame_time;
GAPI_Assert(n_frames > 0u);
return (std::size_t)n_frames;
}
};
struct TimestampSyncTest : public ::testing::TestWithParam<sync_policy> {
void run(cv::GProtoInputArgs&& ins, cv::GProtoOutputArgs&& outs,
const ts_vec& frame_times) {
auto video_in_n = frame_times.size();
GAPI_Assert(video_in_n <= ins.m_args.size());
// Assume that all remaining inputs are const
auto const_in_n = ins.m_args.size() - video_in_n;
auto out_n = outs.m_args.size();
auto policy = GetParam();
TimestampGenerationParams ts_params(frame_times, policy);
MultiFrameSource source(ts_params);
GRunArgs gins;
for (std::size_t i = 0; i < video_in_n; i++) {
gins += cv::gin(source.getSource(i));
}
auto desc = source.desc();
cv::Mat const_mat = cv::Mat::eye(desc.size.height,
desc.size.width,
CV_MAKE_TYPE(desc.depth, desc.chan));
for (std::size_t i = 0; i < const_in_n; i++) {
gins += cv::gin(const_mat);
}
ts_vec out_timestamps(out_n);
cv::GRunArgsP gouts{};
for (auto& t : out_timestamps) {
gouts += cv::gout(t);
}
auto pipe = cv::GComputation(std::move(ins), std::move(outs))
.compileStreaming(cv::compile_args(policy));
pipe.setSource(std::move(gins));
pipe.start();
std::size_t frames = 0u;
TimestampChecker checker(ts_params);
while(pipe.pull(std::move(gouts))) {
checker.checkNext(out_timestamps);
frames++;
}
EXPECT_EQ(checker.nFrames(), frames);
}
};
} // anonymous namespace
TEST_P(TimestampSyncTest, Basic)
{
cv::GMat in1, in2;
auto out = cv::gapi::add(in1, in2);
auto ts = cv::gapi::streaming::timestamp(out);
run(cv::GIn(in1, in2), cv::GOut(ts), {1,2});
}
TEST_P(TimestampSyncTest, ThreeInputs)
{
cv::GMat in1, in2, in3;
auto tmp = cv::gapi::add(in1, in2);
auto out = cv::gapi::add(tmp, in3);
auto ts = cv::gapi::streaming::timestamp(out);
run(cv::GIn(in1, in2, in3), cv::GOut(ts), {2,4,3});
}
TEST_P(TimestampSyncTest, TwoOutputs)
{
cv::GMat in1, in2, in3;
auto out1 = cv::gapi::add(in1, in3);
auto out2 = cv::gapi::add(in2, in3);
auto ts1 = cv::gapi::streaming::timestamp(out1);
auto ts2 = cv::gapi::streaming::timestamp(out2);
run(cv::GIn(in1, in2, in3), cv::GOut(ts1, ts2), {1,4,2});
}
TEST_P(TimestampSyncTest, ConstInput)
{
cv::GMat in1, in2, in3;
auto out1 = cv::gapi::add(in1, in3);
auto out2 = cv::gapi::add(in2, in3);
auto ts1 = cv::gapi::streaming::timestamp(out1);
auto ts2 = cv::gapi::streaming::timestamp(out2);
run(cv::GIn(in1, in2, in3), cv::GOut(ts1, ts2), {1,2});
}
TEST_P(TimestampSyncTest, ChangeSource)
{
cv::GMat in1, in2, in3;
auto out1 = cv::gapi::add(in1, in3);
auto out2 = cv::gapi::add(in2, in3);
auto ts1 = cv::gapi::streaming::timestamp(out1);
auto ts2 = cv::gapi::streaming::timestamp(out2);
run(cv::GIn(in1, in2, in3), cv::GOut(ts1, ts2), {1,2});
run(cv::GIn(in1, in2, in3), cv::GOut(ts1, ts2), {1,2});
}
INSTANTIATE_TEST_CASE_P(InputSynchronization, TimestampSyncTest,
Values(sync_policy::dont_sync,
sync_policy::drop));
} // namespace opencv_test