src/systemc/tests/systemc/compliance_1666/test203b/test203b.cpp - amd/gem5 - Git at Google

 #define SC_INCLUDE_DYNAMIC_PROCESSES

 #include <systemc>
 using namespace sc_core;
 using namespace sc_dt;
 using std::cout;
 using std::endl;

 // 3) terminated_event()

 SC_MODULE(M)
 {
   SC_CTOR(M)
   {
     SC_THREAD(T);
   }

   void T()
   {
     sc_process_handle h1 = sc_spawn(sc_bind(&M::proc, this, 2));
     sc_process_handle h2 = sc_spawn(sc_bind(&M::proc, this, 3));
     sc_process_handle h3 = sc_spawn(sc_bind(&M::proc, this, 1));
     sc_assert(sc_time_stamp() == sc_time(0, SC_NS));
     wait(h1.terminated_event() & h2.terminated_event() & h3.terminated_event());
     sc_assert(sc_time_stamp() == sc_time(3, SC_NS));
     if (h1.valid()) sc_assert (h1.terminated());
     if (h2.valid()) sc_assert (h2.terminated());
     if (h3.valid()) sc_assert (h3.terminated());

     h1 = sc_spawn(sc_bind(&M::proc, this, 10));
     h2 = sc_spawn(sc_bind(&M::proc, this, 30));
     h3 = sc_spawn(sc_bind(&M::proc, this, 20));
     sc_assert(sc_time_stamp() == sc_time(3, SC_NS));
     wait(h1.terminated_event() | h2.terminated_event() | h3.terminated_event());
     sc_assert(sc_time_stamp() == sc_time(13, SC_NS));
     sc_assert(h2.valid());
     sc_assert( !h2.terminated() );
     sc_assert(h3.valid());
     sc_assert( !h3.terminated() );

     wait(h2.terminated_event() & h3.terminated_event());
     sc_assert(sc_time_stamp() == sc_time(33, SC_NS));
   }
   void proc(int delay)
   {
     wait(delay * sc_time(1, SC_NS));
   }
 };

 SC_MODULE(Top)
 {
   M *m;
   SC_CTOR(Top)
   {
     m = new M("m");
   }
 };

 int sc_main(int argc, char* argv[])
 {
   cout << "Should be silent..." << endl;

   Top top("top");
   sc_start();

   cout << endl << "Success" << endl;
   return 0;
 }
	#define SC_INCLUDE_DYNAMIC_PROCESSES

	#include <systemc>
	using namespace sc_core;
	using namespace sc_dt;
	using std::cout;
	using std::endl;

	// 3) terminated_event()

	SC_MODULE(M)
	{
	SC_CTOR(M)
	{
	SC_THREAD(T);
	}

	void T()
	{
	sc_process_handle h1 = sc_spawn(sc_bind(&M::proc, this, 2));
	sc_process_handle h2 = sc_spawn(sc_bind(&M::proc, this, 3));
	sc_process_handle h3 = sc_spawn(sc_bind(&M::proc, this, 1));
	sc_assert(sc_time_stamp() == sc_time(0, SC_NS));
	wait(h1.terminated_event() & h2.terminated_event() & h3.terminated_event());
	sc_assert(sc_time_stamp() == sc_time(3, SC_NS));
	if (h1.valid()) sc_assert (h1.terminated());
	if (h2.valid()) sc_assert (h2.terminated());
	if (h3.valid()) sc_assert (h3.terminated());

	h1 = sc_spawn(sc_bind(&M::proc, this, 10));
	h2 = sc_spawn(sc_bind(&M::proc, this, 30));
	h3 = sc_spawn(sc_bind(&M::proc, this, 20));
	sc_assert(sc_time_stamp() == sc_time(3, SC_NS));
	wait(h1.terminated_event() \| h2.terminated_event() \| h3.terminated_event());
	sc_assert(sc_time_stamp() == sc_time(13, SC_NS));
	sc_assert(h2.valid());
	sc_assert( !h2.terminated() );
	sc_assert(h3.valid());
	sc_assert( !h3.terminated() );

	wait(h2.terminated_event() & h3.terminated_event());
	sc_assert(sc_time_stamp() == sc_time(33, SC_NS));
	}
	void proc(int delay)
	{
	wait(delay * sc_time(1, SC_NS));
	}
	};

	SC_MODULE(Top)
	{
	M *m;
	SC_CTOR(Top)
	{
	m = new M("m");
	}
	};

	int sc_main(int argc, char* argv[])
	{
	cout << "Should be silent..." << endl;

	Top top("top");
	sc_start();

	cout << endl << "Success" << endl;
	return 0;
	}