src/systemc/tests/systemc/compliance_1666/test235a/test235a.cpp - public/gem5 - Git at Google

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

 // 35) Port policy (correct binding)

 SC_MODULE(M)
 {
   sc_port<sc_signal_in_if<int>,1,SC_ONE_OR_MORE_BOUND> p1;
   sc_port<sc_signal_in_if<int>,2,SC_ONE_OR_MORE_BOUND> p2;
   sc_port<sc_signal_in_if<int>,2,SC_ONE_OR_MORE_BOUND> p3;
   sc_port<sc_signal_in_if<int>,0,SC_ONE_OR_MORE_BOUND> p4;
   sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p5;
   sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p6;
   sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p7;
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p8;
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p9;
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p10;
   sc_port<sc_signal_in_if<int>,1,SC_ALL_BOUND> p11;
   sc_port<sc_signal_in_if<int>,3,SC_ALL_BOUND> p12;

   sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p1_all_2;
   sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p2_all_2;
   sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p3_all_2;
   sc_port<sc_signal_in_if<int>,5,SC_ALL_BOUND> p4_all_5;
   sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p5_all_2;

   sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p6_zero;
   sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p7_one;
   sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p8_two;

   SC_CTOR(M)
     : p1("p1"),
       p2("p2"),
       p3("p3"),
       p4("p4"),
       p5("p5"),
       p6("p6"),
       p7("p7"),
       p8("p8"),
       p9("p9"),
       p10("p10"),
       p11("p11"),
       p12("p12"),
       p1_all_2("p1_all_2"),
       p2_all_2("p2_all_2"),
       p3_all_2("p3_all_2"),
       p4_all_5("p4_all_5"),
       p5_all_2("p5_all_2"),
       p6_zero("p6_zero"),
       p7_one("p7_one"),
       p8_two("p8_two")
   {}
   void end_of_elaboration()
   {
     sc_assert(p1.size() == 1);
     sc_assert(p2.size() == 1);
     sc_assert(p3.size() == 2);
     sc_assert(p4.size() == 3);
     sc_assert(p5.size() == 0);
     sc_assert(p6.size() == 1);
     sc_assert(p7.size() == 2);
     sc_assert(p8.size() == 0);
     sc_assert(p9.size() == 1);
     sc_assert(p10.size() == 2);
     sc_assert(p11.size() == 1);
     sc_assert(p12.size() == 3);

     sc_assert(p1_all_2.size() == 2);
     sc_assert(p2_all_2.size() == 2);
     sc_assert(p3_all_2.size() == 2);
     sc_assert(p4_all_5.size() == 5);
     sc_assert(p5_all_2.size() == 2);

     sc_assert(p6_zero.size() == 0);
     sc_assert(p7_one.size() == 1);
     sc_assert(p8_two.size() == 2);
   }
 };

 SC_MODULE(Top)
 {
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p1_twice;
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p2_once;
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p3_once;
   sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p4_unbound;

   M *m;
   sc_signal<int> sig1, sig2, sig3, sig4;

   SC_CTOR(Top)
   {
     m = new M("m");
     m->p1(sig1);

     m->p2(sig1);

     m->p3(sig1);
     m->p3(sig2);

     m->p4(sig1);
     m->p4(sig2);
     m->p4(sig3);

     m->p6(sig3);

     m->p7(sig1);
     m->p7(sig2);

     m->p9(sig1);

     m->p10(sig1);
     m->p10(sig2);

     m->p11(sig1);

     m->p12(sig1);
     m->p12(sig2);
     m->p12(sig3);

     m->p1_all_2(p1_twice);

     m->p2_all_2(p2_once);
     m->p2_all_2(p3_once);

     m->p3_all_2(sig1);
     m->p3_all_2(p2_once);

     m->p4_all_5(p2_once);
     m->p4_all_5(sig1);
     m->p4_all_5(p1_twice);
     m->p4_all_5(p3_once);
     m->p4_all_5(p4_unbound);

     m->p5_all_2(p2_once);
     m->p5_all_2(p4_unbound);

     m->p6_zero(p4_unbound);

     m->p7_one(p2_once);

     m->p8_two(p2_once);
   }
   void before_end_of_elaboration()
   {
     m->p5_all_2(p4_unbound);
     m->p5_all_2(p3_once);
     m->p5_all_2(p4_unbound);

     m->p6_zero(p4_unbound);

     m->p8_two(sig1);
   }
 };

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

   sc_signal<int> sig1, sig2, sig3, sig4;

   Top top("top");
   top.p1_twice(sig1);
   top.p1_twice(sig2);

   top.p2_once(sig3);
   top.p3_once(sig4);

   sc_start(1, SC_NS);

   cout << endl << "Success" << endl;
   return 0;
 }
	#include <systemc>
	using namespace sc_core;
	using namespace sc_dt;
	using std::cout;
	using std::endl;

	// 35) Port policy (correct binding)

	SC_MODULE(M)
	{
	sc_port<sc_signal_in_if<int>,1,SC_ONE_OR_MORE_BOUND> p1;
	sc_port<sc_signal_in_if<int>,2,SC_ONE_OR_MORE_BOUND> p2;
	sc_port<sc_signal_in_if<int>,2,SC_ONE_OR_MORE_BOUND> p3;
	sc_port<sc_signal_in_if<int>,0,SC_ONE_OR_MORE_BOUND> p4;
	sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p5;
	sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p6;
	sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p7;
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p8;
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p9;
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p10;
	sc_port<sc_signal_in_if<int>,1,SC_ALL_BOUND> p11;
	sc_port<sc_signal_in_if<int>,3,SC_ALL_BOUND> p12;

	sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p1_all_2;
	sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p2_all_2;
	sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p3_all_2;
	sc_port<sc_signal_in_if<int>,5,SC_ALL_BOUND> p4_all_5;
	sc_port<sc_signal_in_if<int>,2,SC_ALL_BOUND> p5_all_2;

	sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p6_zero;
	sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p7_one;
	sc_port<sc_signal_in_if<int>,2,SC_ZERO_OR_MORE_BOUND> p8_two;

	SC_CTOR(M)
	: p1("p1"),
	p2("p2"),
	p3("p3"),
	p4("p4"),
	p5("p5"),
	p6("p6"),
	p7("p7"),
	p8("p8"),
	p9("p9"),
	p10("p10"),
	p11("p11"),
	p12("p12"),
	p1_all_2("p1_all_2"),
	p2_all_2("p2_all_2"),
	p3_all_2("p3_all_2"),
	p4_all_5("p4_all_5"),
	p5_all_2("p5_all_2"),
	p6_zero("p6_zero"),
	p7_one("p7_one"),
	p8_two("p8_two")
	{}
	void end_of_elaboration()
	{
	sc_assert(p1.size() == 1);
	sc_assert(p2.size() == 1);
	sc_assert(p3.size() == 2);
	sc_assert(p4.size() == 3);
	sc_assert(p5.size() == 0);
	sc_assert(p6.size() == 1);
	sc_assert(p7.size() == 2);
	sc_assert(p8.size() == 0);
	sc_assert(p9.size() == 1);
	sc_assert(p10.size() == 2);
	sc_assert(p11.size() == 1);
	sc_assert(p12.size() == 3);

	sc_assert(p1_all_2.size() == 2);
	sc_assert(p2_all_2.size() == 2);
	sc_assert(p3_all_2.size() == 2);
	sc_assert(p4_all_5.size() == 5);
	sc_assert(p5_all_2.size() == 2);

	sc_assert(p6_zero.size() == 0);
	sc_assert(p7_one.size() == 1);
	sc_assert(p8_two.size() == 2);
	}
	};

	SC_MODULE(Top)
	{
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p1_twice;
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p2_once;
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p3_once;
	sc_port<sc_signal_in_if<int>,0,SC_ZERO_OR_MORE_BOUND> p4_unbound;

	M *m;
	sc_signal<int> sig1, sig2, sig3, sig4;

	SC_CTOR(Top)
	{
	m = new M("m");
	m->p1(sig1);

	m->p2(sig1);

	m->p3(sig1);
	m->p3(sig2);

	m->p4(sig1);
	m->p4(sig2);
	m->p4(sig3);

	m->p6(sig3);

	m->p7(sig1);
	m->p7(sig2);

	m->p9(sig1);

	m->p10(sig1);
	m->p10(sig2);

	m->p11(sig1);

	m->p12(sig1);
	m->p12(sig2);
	m->p12(sig3);

	m->p1_all_2(p1_twice);

	m->p2_all_2(p2_once);
	m->p2_all_2(p3_once);

	m->p3_all_2(sig1);
	m->p3_all_2(p2_once);

	m->p4_all_5(p2_once);
	m->p4_all_5(sig1);
	m->p4_all_5(p1_twice);
	m->p4_all_5(p3_once);
	m->p4_all_5(p4_unbound);

	m->p5_all_2(p2_once);
	m->p5_all_2(p4_unbound);

	m->p6_zero(p4_unbound);

	m->p7_one(p2_once);

	m->p8_two(p2_once);
	}
	void before_end_of_elaboration()
	{
	m->p5_all_2(p4_unbound);
	m->p5_all_2(p3_once);
	m->p5_all_2(p4_unbound);

	m->p6_zero(p4_unbound);

	m->p8_two(sig1);
	}
	};

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

	sc_signal<int> sig1, sig2, sig3, sig4;

	Top top("top");
	top.p1_twice(sig1);
	top.p1_twice(sig2);

	top.p2_once(sig3);
	top.p3_once(sig4);

	sc_start(1, SC_NS);

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