src/systemc/tests/systemc/1666-2011-compliance/stepwise_simulation/stepwise_simulation.cpp - amd/gem5 - Git at Google

 /*****************************************************************************

   Licensed to Accellera Systems Initiative Inc. (Accellera) under one or
   more contributor license agreements.  See the NOTICE file distributed
   with this work for additional information regarding copyright ownership.
   Accellera licenses this file to you under the Apache License, Version 2.0
   (the "License"); you may not use this file except in compliance with the
   License.  You may obtain a copy of the License at

     http://www.apache.org/licenses/LICENSE-2.0

   Unless required by applicable law or agreed to in writing, software
   distributed under the License is distributed on an "AS IS" BASIS,
   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
   implied.  See the License for the specific language governing
   permissions and limitations under the License.

  *****************************************************************************/

 /*****************************************************************************

   stepwise_simulation.cpp -- Test step-wise simulation

   Original Author: Philipp A. Hartmann, OFFIS, 2011-01-21

  *****************************************************************************/

 /*****************************************************************************

   MODIFICATION LOG - modifiers, enter your name, affiliation, date and
   changes you are making here.

       Name, Affiliation, Date:
   Description of Modification:

  *****************************************************************************/

 #include <systemc.h>

 const int num_events = 2;
 const sc_time delay( 10, SC_NS );

 //#define EXPLICIT_DELTA // should not modify the trace
 #define DELAYED_EVENTS

 SC_MODULE(echo)
 {
   sc_event ev[num_events];
   SC_CTOR(echo)
     : self_trigger(3)
   {
     SC_METHOD(do_print);
 #   ifdef DELAYED_EVENTS
       dont_initialize();
 #   endif
       for( int i=0; i<num_events; ++i )
         sensitive << ev[i];
   }

   void do_print()
   {
     std::cout << "`" << sc_get_current_process_handle().name()
               << "' triggered at " << sc_time_stamp()
               << " - delta: " << sc_delta_count()
               << std::endl;

     if( --self_trigger > 1 )
       next_trigger( delay/2 );
     else if( self_trigger == 1 )
       next_trigger( SC_ZERO_TIME );
     else
       self_trigger = 3;

   }
   int self_trigger;
 };

 void do_step( sc_time const & step )
 {
     sc_dt::uint64 delta       = sc_delta_count();
     static bool   start_delta = ( delta == 0 ) && ( step == SC_ZERO_TIME );
     std::cout
        << " ----- running for "
        << ( ( step == SC_ZERO_TIME ) ? "delta" : step.to_string() )
        << std::endl;

     sc_time start = sc_time_stamp();
     if( step > SC_ZERO_TIME )
     {
       std::cout << "   --- No-op start (warning) - ";
       sc_start( step / 2, SC_EXIT_ON_STARVATION );
       sc_assert( start == sc_time_stamp() );

       sc_start( step / 2, SC_RUN_TO_TIME );
       sc_assert( start + step / 2 == sc_time_stamp() );

       sc_start( step / 2 ); // complete step
     }
     else
     {
       sc_start( SC_ZERO_TIME );
     }
     sc_assert( start + step == sc_time_stamp() );

     std::cout
        << "    -- stopped at - "
        << sc_time_stamp() << " - delta: " << sc_delta_count()
        << std::endl;

     // delta has only increased, when a delta has been run
     sc_assert( sc_delta_count()
                  == delta + ( !start_delta && step == SC_ZERO_TIME ) );
     start_delta = false;
 }

 int sc_main(int, char*[])
 {
   sc_assert( !sc_pending_activity() );
   sc_assert( sc_time_to_pending_activity()
              == sc_max_time() - sc_time_stamp() );

   sc_signal<bool> toggle("toggle");
   echo dut("echo");

   // notify future events
   for( int i=0; i<num_events; ++i )
     dut.ev[i].notify( (i+1) * delay );

   sc_assert( sc_pending_activity_at_future_time() );
   sc_assert( sc_time_to_pending_activity() == delay );

   do_step( SC_ZERO_TIME ); // elaborate

   while( sc_pending_activity() )
   {
     sc_assert( sc_pending_activity_at_current_time()
                || sc_time_to_pending_activity() > SC_ZERO_TIME );

     sc_assert( sc_pending_activity_at_future_time()
                || sc_time_to_pending_activity() == SC_ZERO_TIME );

     // run single (time) step
     do_step( sc_time_to_pending_activity() );

 #   ifdef EXPLICIT_DELTA
       // run remaining current deltas (optional)
       while( sc_pending_activity_at_current_time() ) {
         sc_assert( sc_time_to_pending_activity() == SC_ZERO_TIME );
         do_step( SC_ZERO_TIME );
       }
 #   endif // EXPLICIT_DELTA
   }

   // force one empty evaluate (w/ non-empty update)
   toggle.write( !toggle.read() );
   sc_assert(  sc_pending_activity_at_current_time() );
   sc_start( SC_ZERO_TIME );

   sc_assert( !sc_pending_activity() );
   sc_assert( sc_time_to_pending_activity()
              == sc_max_time() - sc_time_stamp() );

   std::cout << "Success" << std::endl;
   return 0;
 }
	/*****************************************************************************

	Licensed to Accellera Systems Initiative Inc. (Accellera) under one or
	more contributor license agreements. See the NOTICE file distributed
	with this work for additional information regarding copyright ownership.
	Accellera licenses this file to you under the Apache License, Version 2.0
	(the "License"); you may not use this file except in compliance with the
	License. You may obtain a copy of the License at

	http://www.apache.org/licenses/LICENSE-2.0

	Unless required by applicable law or agreed to in writing, software
	distributed under the License is distributed on an "AS IS" BASIS,
	WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
	implied. See the License for the specific language governing
	permissions and limitations under the License.

	*****************************************************************************/

	/*****************************************************************************

	stepwise_simulation.cpp -- Test step-wise simulation

	Original Author: Philipp A. Hartmann, OFFIS, 2011-01-21

	*****************************************************************************/

	/*****************************************************************************

	MODIFICATION LOG - modifiers, enter your name, affiliation, date and
	changes you are making here.

	Name, Affiliation, Date:
	Description of Modification:

	*****************************************************************************/

	#include <systemc.h>

	const int num_events = 2;
	const sc_time delay( 10, SC_NS );

	//#define EXPLICIT_DELTA // should not modify the trace
	#define DELAYED_EVENTS

	SC_MODULE(echo)
	{
	sc_event ev[num_events];
	SC_CTOR(echo)
	: self_trigger(3)
	{
	SC_METHOD(do_print);
	# ifdef DELAYED_EVENTS
	dont_initialize();
	# endif
	for( int i=0; i<num_events; ++i )
	sensitive << ev[i];
	}

	void do_print()
	{
	std::cout << "`" << sc_get_current_process_handle().name()
	<< "' triggered at " << sc_time_stamp()
	<< " - delta: " << sc_delta_count()
	<< std::endl;

	if( --self_trigger > 1 )
	next_trigger( delay/2 );
	else if( self_trigger == 1 )
	next_trigger( SC_ZERO_TIME );
	else
	self_trigger = 3;

	}
	int self_trigger;
	};

	void do_step( sc_time const & step )
	{
	sc_dt::uint64 delta = sc_delta_count();
	static bool start_delta = ( delta == 0 ) && ( step == SC_ZERO_TIME );
	std::cout
	<< " ----- running for "
	<< ( ( step == SC_ZERO_TIME ) ? "delta" : step.to_string() )
	<< std::endl;

	sc_time start = sc_time_stamp();
	if( step > SC_ZERO_TIME )
	{
	std::cout << " --- No-op start (warning) - ";
	sc_start( step / 2, SC_EXIT_ON_STARVATION );
	sc_assert( start == sc_time_stamp() );

	sc_start( step / 2, SC_RUN_TO_TIME );
	sc_assert( start + step / 2 == sc_time_stamp() );

	sc_start( step / 2 ); // complete step
	}
	else
	{
	sc_start( SC_ZERO_TIME );
	}
	sc_assert( start + step == sc_time_stamp() );

	std::cout
	<< " -- stopped at - "
	<< sc_time_stamp() << " - delta: " << sc_delta_count()
	<< std::endl;

	// delta has only increased, when a delta has been run
	sc_assert( sc_delta_count()
	== delta + ( !start_delta && step == SC_ZERO_TIME ) );
	start_delta = false;
	}

	int sc_main(int, char*[])
	{
	sc_assert( !sc_pending_activity() );
	sc_assert( sc_time_to_pending_activity()
	== sc_max_time() - sc_time_stamp() );

	sc_signal<bool> toggle("toggle");
	echo dut("echo");

	// notify future events
	for( int i=0; i<num_events; ++i )
	dut.ev[i].notify( (i+1) * delay );

	sc_assert( sc_pending_activity_at_future_time() );
	sc_assert( sc_time_to_pending_activity() == delay );

	do_step( SC_ZERO_TIME ); // elaborate

	while( sc_pending_activity() )
	{
	sc_assert( sc_pending_activity_at_current_time()
	\|\| sc_time_to_pending_activity() > SC_ZERO_TIME );

	sc_assert( sc_pending_activity_at_future_time()
	\|\| sc_time_to_pending_activity() == SC_ZERO_TIME );

	// run single (time) step
	do_step( sc_time_to_pending_activity() );

	# ifdef EXPLICIT_DELTA
	// run remaining current deltas (optional)
	while( sc_pending_activity_at_current_time() ) {
	sc_assert( sc_time_to_pending_activity() == SC_ZERO_TIME );
	do_step( SC_ZERO_TIME );
	}
	# endif // EXPLICIT_DELTA
	}

	// force one empty evaluate (w/ non-empty update)
	toggle.write( !toggle.read() );
	sc_assert( sc_pending_activity_at_current_time() );
	sc_start( SC_ZERO_TIME );

	sc_assert( !sc_pending_activity() );
	sc_assert( sc_time_to_pending_activity()
	== sc_max_time() - sc_time_stamp() );

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