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1382e4eab6c8449652ecb5672a7990047d1ebe37
fiber/test/test_fiber.cpp
Oliver Kowalke 1382e4eab6 some fixed for concurrent access support
2013-01-12 20:50:33 +01:00

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// Copyright Oliver Kowalke 2009.
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#include <sstream>
#include <string>
#include <boost/assert.hpp>
#include <boost/bind.hpp>
#include <boost/chrono/system_clocks.hpp>
#include <boost/test/unit_test.hpp>
#include <boost/utility.hpp>
#include <boost/fiber/all.hpp>
class copyable
{
private:
int i_;
public:
copyable( int i) :
i_( i)
{}
int operator()()
{ return i_; }
};
class moveable
{
private:
bool state_;
int i_;
BOOST_MOVABLE_BUT_NOT_COPYABLE( moveable);
public:
moveable() :
state_( false), i_( 0)
{}
moveable( int i) :
state_( false), i_( i)
{}
moveable( BOOST_RV_REF( moveable) other) :
state_( false), i_( 0)
{
std::swap( state_, other.state_);
std::swap( i_, other.i_);
}
moveable & operator=( BOOST_RV_REF( moveable) other)
{
if ( this == & other) return * this;
moveable tmp( boost::move( other) );
std::swap( state_, tmp.state_);
std::swap( i_, tmp.i_);
return * this;
}
int operator()()
{ return i_; }
};
void f1() {}
void f2()
{
boost::this_fiber::yield();
}
void f4()
{
boost::fibers::fiber s( f2);
BOOST_CHECK( s);
BOOST_CHECK( s.joinable() );
s.join();
BOOST_CHECK( ! s);
BOOST_CHECK( ! s.joinable() );
}
void f5()
{ boost::this_fiber::yield_break(); }
void f6( int & i)
{
i = 1;
boost::this_fiber::yield();
i = 1;
boost::this_fiber::yield();
i = 2;
boost::this_fiber::yield();
i = 3;
boost::this_fiber::yield();
i = 5;
boost::this_fiber::yield();
i = 8;
}
void interruption_point_wait(boost::fibers::mutex* m,bool* failed)
{
boost::unique_lock<boost::fibers::mutex> lk(*m);
boost::this_fiber::interruption_point();
*failed=true;
}
void disabled_interruption_point_wait(boost::fibers::mutex* m,bool* failed)
{
boost::unique_lock<boost::fibers::mutex> lk(*m);
boost::this_fiber::disable_interruption dc;
boost::this_fiber::interruption_point();
*failed=false;
}
void interruption_point_join( boost::fibers::fiber & f)
{
f.join();
}
void test_move()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
{
boost::fibers::fiber s1;
BOOST_CHECK( s1.empty() );
boost::fibers::fiber s2( f1);
BOOST_CHECK( ! s2.empty() );
s1 = boost::move( s2);
BOOST_CHECK( ! s1.empty() );
BOOST_CHECK( s2.empty() );
}
{
copyable cp( 3);
boost::fibers::fiber s( cp);
}
{
moveable mv( 7);
boost::fibers::fiber s( boost::move( mv) );
}
}
void test_priority()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::fiber f( f1);
BOOST_CHECK_EQUAL( 0, f.priority() );
f.priority( 7);
BOOST_CHECK_EQUAL( 7, f.priority() );
}
void test_id()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::fiber s1;
boost::fibers::fiber s2( f1);
BOOST_CHECK( s1.empty() );
BOOST_CHECK( ! s2.empty() );
BOOST_CHECK_EQUAL( boost::fibers::fiber::id(), s1.get_id() );
BOOST_CHECK( boost::fibers::fiber::id() != s2.get_id() );
boost::fibers::fiber s3( f1);
BOOST_CHECK( s2.get_id() != s3.get_id() );
s1 = boost::move( s2);
BOOST_CHECK( ! s1.empty() );
BOOST_CHECK( s2.empty() );
BOOST_CHECK( boost::fibers::fiber::id() != s1.get_id() );
BOOST_CHECK_EQUAL( boost::fibers::fiber::id(), s2.get_id() );
}
void test_detach()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
{
boost::fibers::fiber s1( f1);
BOOST_CHECK( ! s1);
s1.detach();
BOOST_CHECK( ! s1);
}
{
boost::fibers::fiber s2( f2);
BOOST_CHECK( s2);
s2.detach();
BOOST_CHECK( ! s2);
}
}
void test_replace()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::scheduling_algorithm(
new boost::fibers::round_robin() );
boost::fibers::fiber s1( f1);
BOOST_CHECK( ! s1);
boost::fibers::fiber s2( f2);
BOOST_CHECK( s2);
if ( s1.joinable() ) s1.join();
if ( s2.joinable() ) s2.join();
}
void test_complete()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::fiber s1( f1);
BOOST_CHECK( ! s1);
boost::fibers::fiber s2( f2);
BOOST_CHECK( s2);
if ( s1.joinable() ) s1.join();
if ( s2.joinable() ) s2.join();
}
void test_join_in_thread()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::fiber s( f2);
BOOST_CHECK( s);
BOOST_CHECK( s.joinable() );
s.join();
BOOST_CHECK( ! s);
BOOST_CHECK( ! s.joinable() );
}
void test_join_and_run()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::fiber s( f2);
BOOST_CHECK( s);
BOOST_CHECK( s.joinable() );
s.join();
BOOST_CHECK( ! s.joinable() );
BOOST_CHECK( ! s);
}
void test_join_in_fiber()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
// spawn fiber s
// s spawns an new fiber s' in its fiber-fn
// s' yields in its fiber-fn
// s joins s' and gets suspended (waiting on s')
boost::fibers::fiber s( f4);
// run() resumes s + s' which completes
s.join();
BOOST_CHECK( ! s);
}
void test_yield_break()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::fiber s( f5);
if ( s.joinable() ) s.join();
BOOST_CHECK( ! s);
}
void test_yield()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
int v1 = 0, v2 = 0;
BOOST_CHECK_EQUAL( 0, v1);
BOOST_CHECK_EQUAL( 0, v2);
boost::fibers::fiber s1( boost::bind( f6, boost::ref( v1) ) );
boost::fibers::fiber s2( boost::bind( f6, boost::ref( v2) ) );
if ( s1.joinable() ) s1.join();
if ( s2.joinable() ) s2.join();
BOOST_CHECK( ! s1);
BOOST_CHECK( ! s2);
BOOST_CHECK_EQUAL( 8, v1);
BOOST_CHECK_EQUAL( 8, v2);
}
void test_fiber_interrupts_at_interruption_point()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::mutex m;
bool failed=false;
boost::unique_lock<boost::fibers::mutex> lk(m);
boost::fibers::fiber f(boost::bind(&interruption_point_wait,&m,&failed));
f.interrupt();
lk.unlock();
f.join();
BOOST_CHECK(!failed);
}
void test_fiber_no_interrupt_if_interrupts_disabled_at_interruption_point()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
boost::fibers::mutex m;
bool failed=true;
boost::unique_lock<boost::fibers::mutex> lk(m);
boost::fibers::fiber f(boost::bind(&disabled_interruption_point_wait,&m,&failed));
f.interrupt();
lk.unlock();
f.join();
BOOST_CHECK(!failed);
}
void test_fiber_interrupts_at_join()
{
boost::fibers::round_robin ds;
boost::fibers::scheduling_algorithm( & ds);
int i = 0;
boost::fibers::fiber f1( boost::bind( f6, boost::ref( i) ) );
BOOST_CHECK_EQUAL( 1, i);
boost::fibers::fiber f2( boost::bind( interruption_point_join, boost::ref( f1) ) );
f2.interrupt();
BOOST_CHECK_EQUAL( 1, i);
f2.join();
BOOST_CHECK_EQUAL( 1, i);
f1.join();
BOOST_CHECK_EQUAL( 8, i);
}
boost::unit_test::test_suite * init_unit_test_suite( int, char* [])
{
boost::unit_test::test_suite * test =
BOOST_TEST_SUITE("Boost.Fiber: fiber test suite");
test->add( BOOST_TEST_CASE( & test_move) );
test->add( BOOST_TEST_CASE( & test_id) );
test->add( BOOST_TEST_CASE( & test_priority) );
test->add( BOOST_TEST_CASE( & test_detach) );
test->add( BOOST_TEST_CASE( & test_complete) );
test->add( BOOST_TEST_CASE( & test_replace) );
test->add( BOOST_TEST_CASE( & test_join_in_thread) );
test->add( BOOST_TEST_CASE( & test_join_and_run) );
test->add( BOOST_TEST_CASE( & test_join_in_fiber) );
test->add( BOOST_TEST_CASE( & test_yield_break) );
test->add( BOOST_TEST_CASE( & test_yield) );
test->add( BOOST_TEST_CASE( & test_fiber_interrupts_at_interruption_point) );
test->add( BOOST_TEST_CASE( & test_fiber_no_interrupt_if_interrupts_disabled_at_interruption_point) );
test->add( BOOST_TEST_CASE( & test_fiber_interrupts_at_join) );
return test;
}
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