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// 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 "test_precomp.hpp"
# include "opencv2/gapi/gcomputation_async.hpp"
# include "opencv2/gapi/gcompiled_async.hpp"
# include <condition_variable>
# include <stdexcept>
namespace opencv_test
{
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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).
//So these differences are factored into devoted helper classes (mixins) which are then used by the common test script by help of CRTP.
//Actual GAPI Computation with parameters to run on is mixed into test via CRTP as well.
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 ;
cv : : GScalar out = cv : : gapi : : sum ( in + in ) ;
return GComputation { in , out } ;
} )
{ }
const cv : : Size sz { 2 , 2 } ;
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 ( ) {
return sum_of_sum . compile ( descr_of ( in_mat ) ) ;
}
cv : : GComputation & computation ( ) {
return sum_of_sum ;
}
cv : : GCompileArgs compile_args ( ) {
return { } ;
}
cv : : GRunArgs in_args ( ) {
return cv : : gin ( in_mat ) ;
}
cv : : GRunArgsP out_args ( ) {
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return cv : : gout ( out_sc ) ;
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}
void verify ( ) {
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EXPECT_EQ ( 8 , out_sc [ 0 ] ) ;
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}
} ;
namespace {
G_TYPED_KERNEL ( GThrow , < GMat ( GMat ) > , " org.opencv.test.throw " )
{
static GMatDesc outMeta ( GMatDesc in ) { return in ; }
} ;
struct gthrow_exception : std : : runtime_error {
using std : : runtime_error : : runtime_error ;
} ;
GAPI_OCV_KERNEL ( GThrowImpl , GThrow )
{
static void run ( const cv : : Mat & in , cv : : Mat & )
{
//this condition is needed to avoid "Unreachable code" warning on windows inside OCVCallHelper
if ( ! in . empty ( ) )
{
throw gthrow_exception { " test " } ;
}
}
} ;
}
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struct ExceptionOnExecution {
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cv : : GComputation throwing_gcomp ;
ExceptionOnExecution ( ) : throwing_gcomp ( [ ] {
cv : : GMat in ;
auto gout = GThrow : : on ( in ) ;
return GComputation { in , gout } ;
} )
{ }
const cv : : Size sz { 2 , 2 } ;
cv : : Mat in_mat { sz , CV_8U , cv : : Scalar ( 1 ) } ;
cv : : Mat out ;
cv : : GCompiled compile ( ) {
return throwing_gcomp . compile ( descr_of ( in_mat ) , compile_args ( ) ) ;
}
cv : : GComputation & computation ( ) {
return throwing_gcomp ;
}
cv : : GRunArgs in_args ( ) {
return cv : : gin ( in_mat ) ;
}
cv : : GRunArgsP out_args ( ) {
return cv : : gout ( out ) ;
}
cv : : GCompileArgs compile_args ( ) {
auto pkg = cv : : gapi : : kernels < GThrowImpl > ( ) ;
return cv : : compile_args ( pkg ) ;
}
} ;
template < typename crtp_final_t >
struct crtp_cast {
template < typename crtp_base_t >
static crtp_final_t * crtp_cast_ ( crtp_base_t * this_ )
{
return static_cast < crtp_final_t * > ( this_ ) ;
}
} ;
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//Test Mixin, hiding details of callback based notification
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template < typename crtp_final_t >
struct CallBack : crtp_cast < crtp_final_t > {
std : : atomic < bool > callback_called = { false } ;
std : : mutex mtx ;
std : : exception_ptr ep ;
std : : condition_variable cv ;
std : : function < void ( std : : exception_ptr ) > callback ( ) {
return [ & ] ( std : : exception_ptr ep_ ) {
ep = ep_ ;
callback_called = true ;
mtx . lock ( ) ;
mtx . unlock ( ) ;
cv . notify_one ( ) ;
} ;
} ;
template < typename . . . Args >
void start_async ( Args & & . . . args ) {
this - > crtp_cast_ ( this ) - > async ( callback ( ) , std : : forward < Args > ( args ) . . . ) ;
}
void wait_for_result ( )
{
std : : unique_lock < std : : mutex > lck { mtx } ;
cv . wait ( lck , [ & ] { return callback_called = = true ; } ) ;
if ( ep )
{
std : : rethrow_exception ( ep ) ;
}
}
} ;
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//Test Mixin, hiding details of future based notification
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template < typename crtp_final_t >
struct Future : crtp_cast < crtp_final_t > {
std : : future < void > f ;
template < typename . . . Args >
void start_async ( Args & & . . . args ) {
f = this - > crtp_cast_ ( this ) - > async ( std : : forward < Args > ( args ) . . . ) ;
}
void wait_for_result ( )
{
f . get ( ) ;
}
} ;
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//Test Mixin, hiding details of using compiled GAPI object
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template < typename crtp_final_t >
struct AsyncCompiled : crtp_cast < crtp_final_t > {
template < typename . . . Args >
auto async ( Args & & . . . args ) - > decltype ( cv : : gapi : : wip : : async ( std : : declval < cv : : GCompiled & > ( ) , std : : forward < Args > ( args ) . . . ) ) {
auto gcmpld = this - > crtp_cast_ ( this ) - > compile ( ) ;
return cv : : gapi : : wip : : async ( gcmpld , std : : forward < Args > ( args ) . . . ) ;
}
} ;
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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 >
struct AsyncApply : crtp_cast < crtp_final_t > {
template < typename . . . Args >
auto async ( Args & & . . . args ) - > decltype ( cv : : gapi : : wip : : async_apply ( std : : declval < cv : : GComputation & > ( ) , std : : forward < Args > ( args ) . . . ) ) {
return cv : : gapi : : wip : : async_apply ( this - > crtp_cast_ ( this ) - > computation ( ) , std : : forward < Args > ( args ) . . . , this - > crtp_cast_ ( this ) - > compile_args ( ) ) ;
}
} ;
template < typename case_t >
struct normal : : : testing : : Test , case_t { } ;
TYPED_TEST_CASE_P ( normal ) ;
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 ( ) ) ;
this - > wait_for_result ( ) ;
this - > verify ( ) ;
}
REGISTER_TYPED_TEST_CASE_P ( normal ,
basic
) ;
template < typename case_t >
struct exception : : : testing : : Test , case_t { } ;
TYPED_TEST_CASE_P ( exception ) ;
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 ( ) ) ;
EXPECT_THROW ( this - > wait_for_result ( ) , gthrow_exception ) ;
}
REGISTER_TYPED_TEST_CASE_P ( exception ,
basic
) ;
template < typename case_t >
struct stress : : : testing : : Test { } ;
TYPED_TEST_CASE_P ( stress ) ;
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 ;
const std : : size_t number_of_threads = 4 ;
auto thread_body = [ & ] ( ) {
std : : vector < TypeParam > requests { request_per_thread } ;
for ( auto & & r : requests ) {
r . start_async ( r . in_args ( ) , r . out_args ( ) ) ;
}
for ( auto & & r : requests ) {
r . wait_for_result ( ) ;
r . verify ( ) ;
}
} ;
std : : vector < std : : thread > pool { number_of_threads } ;
for ( auto & & t : pool ) {
t = std : : thread { thread_body } ;
}
for ( auto & & t : pool ) {
t . join ( ) ;
}
}
REGISTER_TYPED_TEST_CASE_P ( stress , test ) ;
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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 callback_or_future_t , template < typename > class compiled_or_apply_t >
struct Case
: compute_fixture_t ,
callback_or_future_t < Case < compute_fixture_t , callback_or_future_t , compiled_or_apply_t > > ,
compiled_or_apply_t < Case < compute_fixture_t , callback_or_future_t , compiled_or_apply_t > >
{ } ;
template < typename computation_t >
using cases = : : testing : : Types <
Case < computation_t , CallBack , AsyncCompiled > ,
Case < computation_t , CallBack , AsyncApply > ,
Case < computation_t , Future , AsyncCompiled > ,
Case < computation_t , Future , AsyncApply >
> ;
INSTANTIATE_TYPED_TEST_CASE_P ( AsyncAPINormalFlow_ , normal , cases < SumOfSum2x2 > ) ;
INSTANTIATE_TYPED_TEST_CASE_P ( AsyncAPIExceptionHandling_ , exception , cases < ExceptionOnExecution > ) ;
INSTANTIATE_TYPED_TEST_CASE_P ( AsyncAPIStress , stress , cases < SumOfSum2x2 > ) ;
TEST ( AsyncAPI , Sample ) {
cv : : GComputation self_mul ( [ ] {
cv : : GMat in ;
cv : : GMat out = cv : : gapi : : mul ( in , in ) ;
return GComputation { in , out } ;
} ) ;
const cv : : Size sz { 2 , 2 } ;
cv : : Mat in_mat { sz , CV_8U , cv : : Scalar ( 1 ) } ;
cv : : Mat out ;
auto f = cv : : gapi : : wip : : async_apply ( self_mul , cv : : gin ( in_mat ) , cv : : gout ( out ) ) ;
f . wait ( ) ;
}
} // namespace opencv_test