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94e36d8c8d
G-API: Mat's "deownification" * deowned Mat * boner * Removed canDescribe test for own::Mat * Removed STANDALONE flag for apply() and operator() * Removed: desc_tests for own::Mat, descr_of for own::Mat. * Returned: tests, cv::gapi::own::descr_of; fixed alignment; Removed own::Mat's headers * Removed unused header own/mat.hpp from gbackend.hpp
519 lines
16 KiB
C++
519 lines
16 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) 2019 Intel Corporation
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#include "test_precomp.hpp"
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#include <opencv2/gapi/gcomputation_async.hpp>
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#include <opencv2/gapi/gcompiled_async.hpp>
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#include <opencv2/gapi/gasync_context.hpp>
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#include <condition_variable>
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#include <stdexcept>
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namespace opencv_test
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{
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//Main idea behind these tests is to have the same test script that is parameterized in order to test all setups (GCompiled vs apply, callback vs future).
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//So these differences are factored into devoted helper classes (mixins) which are then used by the common test script by help of CRTP.
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//Actual GAPI Computation with parameters to run on is mixed into test via CRTP as well.
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struct SumOfSum2x2 {
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cv::GComputation sum_of_sum;
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SumOfSum2x2() : sum_of_sum([]{
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cv::GMat in;
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cv::GScalar out = cv::gapi::sum(in + in);
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return GComputation{in, out};
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})
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{}
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const cv::Size sz{2, 2};
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cv::Mat in_mat{sz, CV_8U, cv::Scalar(1)};
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cv::Scalar out_sc;
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cv::GCompiled compile(){
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return sum_of_sum.compile(descr_of(in_mat));
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}
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cv::GComputation& computation(){
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return sum_of_sum;
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}
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cv::GCompileArgs compile_args(){
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return {};
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}
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cv::GRunArgs in_args(){
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return cv::gin(in_mat);
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}
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cv::GRunArgsP out_args(){
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return cv::gout(out_sc);
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}
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void verify(){
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EXPECT_EQ(8, out_sc[0]);
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}
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};
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namespace {
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G_TYPED_KERNEL(GThrow, <GMat(GMat)>, "org.opencv.test.throw")
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{
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static GMatDesc outMeta(GMatDesc in) { return in; }
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};
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struct gthrow_exception : std::runtime_error {
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using std::runtime_error::runtime_error;
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};
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GAPI_OCV_KERNEL(GThrowImpl, GThrow)
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{
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static void run(const cv::Mat& in, cv::Mat&)
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{
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//this condition is needed to avoid "Unreachable code" warning on windows inside OCVCallHelper
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if (!in.empty())
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{
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throw gthrow_exception{"test"};
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}
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}
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};
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//TODO: unify with callback helper code
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struct cancel_struct {
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std::atomic<int> num_tasks_to_spawn;
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cv::gapi::wip::GAsyncContext ctx;
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cancel_struct(int tasks_to_spawn) : num_tasks_to_spawn(tasks_to_spawn) {}
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};
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G_TYPED_KERNEL(GCancelationAdHoc, <GMat(GMat, cancel_struct*)>, "org.opencv.test.cancel_ad_hoc")
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{
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static GMatDesc outMeta(GMatDesc in, cancel_struct* ) { return in; }
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};
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GAPI_OCV_KERNEL(GCancelationAdHocImpl, GCancelationAdHoc)
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{
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static void run(const cv::Mat& , cancel_struct* cancel_struct_p, cv::Mat&) {
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auto& cancel_struct_ = * cancel_struct_p;
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auto num_tasks_to_spawn = -- cancel_struct_.num_tasks_to_spawn;
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cancel_struct_.ctx.cancel();
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EXPECT_GT(num_tasks_to_spawn, 0)<<"Incorrect Test setup - to small number of tasks to feed the queue \n";
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}
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};
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}
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struct ExceptionOnExecution {
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cv::GComputation throwing_gcomp;
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ExceptionOnExecution() : throwing_gcomp([]{
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cv::GMat in;
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auto gout = GThrow::on(in);
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return GComputation{in, gout};
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})
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{}
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const cv::Size sz{2, 2};
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cv::Mat in_mat{sz, CV_8U, cv::Scalar(1)};
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cv::Mat out;
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cv::GCompiled compile(){
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return throwing_gcomp.compile(descr_of(in_mat), compile_args());
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}
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cv::GComputation& computation(){
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return throwing_gcomp;
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}
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cv::GRunArgs in_args(){
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return cv::gin(in_mat);
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}
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cv::GRunArgsP out_args(){
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return cv::gout(out);
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}
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cv::GCompileArgs compile_args(){
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auto pkg = cv::gapi::kernels<GThrowImpl>();
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return cv::compile_args(pkg);
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}
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};
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struct SelfCanceling {
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cv::GComputation self_cancel;
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SelfCanceling(cancel_struct* cancel_struct_p) : self_cancel([cancel_struct_p]{
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cv::GMat in;
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cv::GMat out = GCancelationAdHoc::on(in, cancel_struct_p);
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return GComputation{in, out};
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})
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{}
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const cv::Size sz{2, 2};
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cv::Mat in_mat{sz, CV_8U, cv::Scalar(1)};
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cv::Mat out_mat;
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cv::GCompiled compile(){
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return self_cancel.compile(descr_of(in_mat), compile_args());
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}
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cv::GComputation& computation(){
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return self_cancel;
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}
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cv::GRunArgs in_args(){
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return cv::gin(in_mat);
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}
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cv::GRunArgsP out_args(){
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return cv::gout(out_mat);
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}
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cv::GCompileArgs compile_args(){
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auto pkg = cv::gapi::kernels<GCancelationAdHocImpl>();
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return cv::compile_args(pkg);
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}
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};
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template<typename crtp_final_t>
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struct crtp_cast {
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template<typename crtp_base_t>
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static crtp_final_t* crtp_cast_(crtp_base_t* this_)
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{
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return static_cast<crtp_final_t*>(this_);
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}
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};
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//Test Mixin, hiding details of callback based notification
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template<typename crtp_final_t>
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struct CallBack: crtp_cast<crtp_final_t> {
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std::atomic<bool> callback_called = {false};
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std::mutex mtx;
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std::exception_ptr ep;
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std::condition_variable cv;
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std::function<void(std::exception_ptr)> callback(){
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return [&](std::exception_ptr ep_){
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ep = ep_;
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callback_called = true;
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mtx.lock();
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mtx.unlock();
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cv.notify_one();
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};
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};
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template<typename... Args >
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void start_async(Args&&... args){
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this->crtp_cast_(this)->async(callback(), std::forward<Args>(args)...);
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}
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template<typename... Args >
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void start_async(cv::gapi::wip::GAsyncContext& ctx, Args&&... args){
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this->crtp_cast_(this)->async(ctx, callback(), std::forward<Args>(args)...);
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}
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void wait_for_result()
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{
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std::unique_lock<std::mutex> lck{mtx};
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cv.wait(lck,[&]{return callback_called == true;});
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if (ep)
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{
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std::rethrow_exception(ep);
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}
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}
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};
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//Test Mixin, hiding details of future based notification
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template<typename crtp_final_t>
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struct Future: crtp_cast<crtp_final_t> {
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std::future<void> f;
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template<typename... Args >
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void start_async(Args&&... args){
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f = this->crtp_cast_(this)->async(std::forward<Args>(args)...);
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}
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void wait_for_result()
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{
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f.get();
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}
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};
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//Test Mixin, hiding details of using compiled GAPI object
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template<typename crtp_final_t>
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struct AsyncCompiled : crtp_cast<crtp_final_t>{
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template<typename... Args>
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auto async(Args&&... args) -> decltype(cv::gapi::wip::async(std::declval<cv::GCompiled&>(), std::forward<Args>(args)...)){
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auto gcmpld = this->crtp_cast_(this)->compile();
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return cv::gapi::wip::async(gcmpld, std::forward<Args>(args)...);
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}
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template<typename... Args>
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auto async(cv::gapi::wip::GAsyncContext& ctx, Args&&... args) ->
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decltype(cv::gapi::wip::async(std::declval<cv::GCompiled&>(), std::forward<Args>(args)..., std::declval<cv::gapi::wip::GAsyncContext&>()))
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{
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auto gcmpld = this->crtp_cast_(this)->compile();
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return cv::gapi::wip::async(gcmpld, std::forward<Args>(args)..., ctx);
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}
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};
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//Test Mixin, hiding details of calling apply (async_apply) on GAPI Computation object
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template<typename crtp_final_t>
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struct AsyncApply : crtp_cast<crtp_final_t> {
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template<typename... Args>
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auto async(Args&&... args) ->
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decltype(cv::gapi::wip::async_apply(std::declval<cv::GComputation&>(), std::forward<Args>(args)..., std::declval<cv::GCompileArgs>()))
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{
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return cv::gapi::wip::async_apply(
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this->crtp_cast_(this)->computation(), std::forward<Args>(args)..., this->crtp_cast_(this)->compile_args()
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);
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}
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template<typename... Args>
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auto async(cv::gapi::wip::GAsyncContext& ctx, Args&&... args) ->
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decltype(cv::gapi::wip::async_apply(std::declval<cv::GComputation&>(), std::forward<Args>(args)... , std::declval<cv::GCompileArgs>(), std::declval<cv::gapi::wip::GAsyncContext&>()))
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{
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return cv::gapi::wip::async_apply(
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this->crtp_cast_(this)->computation(), std::forward<Args>(args)..., this->crtp_cast_(this)->compile_args(), ctx
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);
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}
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};
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template<typename case_t>
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struct normal: ::testing::Test, case_t{};
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TYPED_TEST_CASE_P(normal);
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TYPED_TEST_P(normal, basic){
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//Normal scenario: start function asynchronously and wait for the result, and verify it
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this->start_async(this->in_args(), this->out_args());
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this->wait_for_result();
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this->verify();
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}
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REGISTER_TYPED_TEST_CASE_P(normal,
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basic
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);
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template<typename case_t>
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struct exception: ::testing::Test, case_t{};
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TYPED_TEST_CASE_P(exception);
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TYPED_TEST_P(exception, basic){
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//Exceptional scenario: start function asynchronously and make sure exception is passed to the user
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this->start_async(this->in_args(), this->out_args());
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EXPECT_THROW(this->wait_for_result(), gthrow_exception);
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}
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REGISTER_TYPED_TEST_CASE_P(exception,
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basic
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);
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template<typename case_t>
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struct stress : ::testing::Test{};
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TYPED_TEST_CASE_P(stress);
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TYPED_TEST_P(stress, test){
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//Some stress testing: use a number of threads to start a bunch of async requests
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const std::size_t request_per_thread = 10;
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const std::size_t number_of_threads = 4;
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auto thread_body = [&](){
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std::vector<TypeParam> requests(request_per_thread);
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for (auto&& r : requests){
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r.start_async(r.in_args(), r.out_args());
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}
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for (auto&& r : requests){
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r.wait_for_result();
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r.verify();
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}
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};
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std::vector<std::thread> pool {number_of_threads};
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for (auto&& t : pool){
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t = std::thread{thread_body};
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}
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for (auto&& t : pool){
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t.join();
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}
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}
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REGISTER_TYPED_TEST_CASE_P(stress, test);
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template<typename case_t>
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struct cancel : ::testing::Test{};
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TYPED_TEST_CASE_P(cancel);
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TYPED_TEST_P(cancel, basic){
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constexpr int num_tasks = 100;
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cancel_struct cancel_struct_ {num_tasks};
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std::vector<TypeParam> requests; requests.reserve(num_tasks);
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for (auto i = num_tasks; i>0; i--){
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requests.emplace_back(&cancel_struct_);
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}
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for (auto&& r : requests){
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//first request will cancel other on it's execution
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r.start_async(cancel_struct_.ctx, r.in_args(), r.out_args());
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}
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unsigned int canceled = 0 ;
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for (auto&& r : requests){
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try {
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r.wait_for_result();
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}catch (cv::gapi::wip::GAsyncCanceled&){
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++canceled;
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}
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}
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ASSERT_GT(canceled, 0u);
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}
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namespace {
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GRunArgs deep_copy_out_args(const GRunArgsP& args ){
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GRunArgs result; result.reserve(args.size());
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for (auto&& arg : args){
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//FIXME: replace this switch with use of visit() on variant, when it will be available
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switch (arg.index()){
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case GRunArgP::index_of<cv::UMat*>() : result.emplace_back(*util::get<cv::UMat*>(arg)); break;
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case GRunArgP::index_of<cv::Mat*>() : result.emplace_back(*util::get<cv::Mat*>(arg)); break;
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case GRunArgP::index_of<cv::Scalar*>() : result.emplace_back(*util::get<cv::Scalar*> (arg)); break;
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case GRunArgP::index_of<cv::detail::VectorRef>() : result.emplace_back(util::get<cv::detail::VectorRef> (arg)); break;
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default : ;
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}
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}
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return result;
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}
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GRunArgsP args_p_from_args(GRunArgs& args){
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GRunArgsP result; result.reserve(args.size());
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for (auto&& arg : args){
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switch (arg.index()){
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case GRunArg::index_of<cv::Mat>() : result.emplace_back(&util::get<cv::Mat>(arg)); break;
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case GRunArg::index_of<cv::UMat>() : result.emplace_back(&util::get<cv::UMat>(arg)); break;
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case GRunArg::index_of<cv::Scalar>() : result.emplace_back(&util::get<cv::Scalar> (arg)); break;
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case GRunArg::index_of<cv::detail::VectorRef>() : result.emplace_back(util::get<cv::detail::VectorRef> (arg)); break;
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default : ;
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}
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}
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return result;
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}
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}
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REGISTER_TYPED_TEST_CASE_P(cancel, basic);
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template<typename case_t>
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struct output_args_lifetime : ::testing::Test{
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static constexpr const int num_of_requests = 20;
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};
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TYPED_TEST_CASE_P(output_args_lifetime);
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//There are intentionally no actual checks (asserts and verify) in output_args_lifetime tests.
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//They are more of example use-cases than real tests. (ASAN/valgrind can still catch issues here)
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TYPED_TEST_P(output_args_lifetime, callback){
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std::atomic<int> active_requests = {0};
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for (int i=0; i<this->num_of_requests; i++)
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{
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TypeParam r;
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//As output arguments are __captured by reference__ calling code
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//__must__ ensure they live long enough to complete asynchronous activity.
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//(i.e. live at least until callback is called)
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auto out_args_ptr = std::make_shared<cv::GRunArgs>(deep_copy_out_args(r.out_args()));
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//Extend lifetime of out_args_ptr content by capturing it into a callback
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auto cb = [&active_requests, out_args_ptr](std::exception_ptr ){
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--active_requests;
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};
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++active_requests;
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r.async(cb, r.in_args(), args_p_from_args(*out_args_ptr));
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}
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while(active_requests){
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std::this_thread::sleep_for(std::chrono::milliseconds{2});
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}
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}
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TYPED_TEST_P(output_args_lifetime, future){
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std::vector<std::future<void>> fs(this->num_of_requests);
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std::vector<std::shared_ptr<cv::GRunArgs>> out_ptrs(this->num_of_requests);
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for (int i=0; i<this->num_of_requests; i++)
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{
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TypeParam r;
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//As output arguments are __captured by reference__ calling code
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//__must__ ensure they live long enough to complete asynchronous activity.
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//(i.e. live at least until future.get()/wait() is returned)
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auto out_args_ptr = std::make_shared<cv::GRunArgs>(deep_copy_out_args(r.out_args()));
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//Extend lifetime of out_args_ptr content
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out_ptrs[i] = out_args_ptr;
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fs[i] = r.async(r.in_args(), args_p_from_args(*out_args_ptr));
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}
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for (auto const& ftr : fs ){
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ftr.wait();
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}
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}
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REGISTER_TYPED_TEST_CASE_P(output_args_lifetime, callback, future);
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//little helpers to match up all combinations of setups
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template<typename compute_fixture_t, template<typename> class... args_t>
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struct Case
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: compute_fixture_t,
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args_t<Case<compute_fixture_t, args_t...>> ...
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{
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template<typename... Args>
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Case(Args&&... args) : compute_fixture_t(std::forward<Args>(args)...) { }
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Case(Case const & ) = default;
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Case(Case && ) = default;
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Case() = default;
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};
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template<typename computation_t>
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using cases = ::testing::Types<
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Case<computation_t, CallBack, AsyncCompiled>,
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Case<computation_t, CallBack, AsyncApply>,
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Case<computation_t, Future, AsyncCompiled>,
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Case<computation_t, Future, AsyncApply>
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>;
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INSTANTIATE_TYPED_TEST_CASE_P(AsyncAPINormalFlow_, normal, cases<SumOfSum2x2>);
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INSTANTIATE_TYPED_TEST_CASE_P(AsyncAPIExceptionHandling_, exception, cases<ExceptionOnExecution>);
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INSTANTIATE_TYPED_TEST_CASE_P(AsyncAPIStress, stress, cases<SumOfSum2x2>);
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INSTANTIATE_TYPED_TEST_CASE_P(AsyncAPICancelation, cancel, cases<SelfCanceling>);
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template<typename computation_t>
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using explicit_wait_cases = ::testing::Types<
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Case<computation_t, AsyncCompiled>,
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Case<computation_t, AsyncApply>,
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Case<computation_t, AsyncCompiled>,
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Case<computation_t, AsyncApply>
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>;
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INSTANTIATE_TYPED_TEST_CASE_P(AsyncAPIOutArgsLifetTime, output_args_lifetime, explicit_wait_cases<SumOfSum2x2>);
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} // namespace opencv_test
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