sc_refined.h

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

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

  sc_refined.h -- implementation of refined protocols 
  		     
  Original Author: Dirk Vermeersch, Coware, Inc.
                   Vijay Kumar, Coware, Inc.

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

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#ifndef SC_REFINED_H
#define SC_REFINED_H

#include "sc_ms/sc_refined_port_impl.h"
#include "sc_ms/sc_terminal.h"

//------------------------------------------------------------------
// various macros required for the master/slave implementation
#define SC_MASTER_P 		struct sc_master_protocol:	public virtual sc_refined_master_port_impl<datatype>
#define SC_INMASTER_P 		struct sc_inm_protocol:		public virtual sc_refined_inmaster_port_impl<datatype>
#define SC_OUTMASTER_P 		struct sc_outm_protocol:	public virtual sc_refined_outmaster_port_impl<datatype>
#define SC_INOUTMASTER_P	struct sc_inoutm_protocol:	public virtual sc_refined_inoutmaster_port_impl<datatype>

#define SC_SLAVE_P 		struct sc_slave_protocol:	public virtual sc_refined_slave_port_impl<datatype>
#define SC_INSLAVE_P		struct sc_ins_protocol:		public virtual sc_refined_inslave_port_impl<datatype>
#define SC_OUTSLAVE_P 		struct sc_outs_protocol:	public virtual sc_refined_outslave_port_impl<datatype>
#define SC_INOUTSLAVE_P 	struct sc_inouts_protocol:	public virtual sc_refined_inoutslave_port_impl<datatype>

//------------------------------------------------------------------
template <class datatype>
SC_PROTOCOL(sc_enableHandshake) {
  public :  
  SC_OUTMASTER_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> en;
  };
  SC_INMASTER_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> en;
  };
  SC_INOUTMASTER_P {
    sc_terminal_in<datatype,TT_DATA> din;
    sc_terminal_out<datatype,TT_DATA> dout;
    sc_terminal_out<bool,TT_CONTROL> en;
    sc_terminal_out<bool,TT_CONTROL> nRW;
  };
  SC_OUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> en;
  };
  SC_INSLAVE_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> en;
  };
  SC_INOUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> din;
    sc_terminal_in<datatype,TT_DATA> dout;
    sc_terminal_in<bool,TT_CONTROL> en;
    sc_terminal_in<bool,TT_CONTROL> nRW;
  };
};


template <class datatype>
SC_PROTOCOL(sc_fullHandshake) {
  public:
  SC_OUTMASTER_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> ack;
    sc_terminal_out<bool,TT_CONTROL> req;
  };
  SC_INMASTER_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> ack;
    sc_terminal_out<bool,TT_CONTROL> req;
  };
  SC_INOUTMASTER_P {
    sc_terminal_in<datatype,TT_DATA> din;
    sc_terminal_out<datatype,TT_DATA> dout;
    sc_terminal_in<bool,TT_CONTROL> ack;
    sc_terminal_out<bool,TT_CONTROL> req;
    sc_terminal_out<bool,TT_CONTROL> nRW;
 };
  SC_OUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> ack;
    sc_terminal_in<bool,TT_CONTROL> req;
  };
  SC_INSLAVE_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> ack;
    sc_terminal_in<bool,TT_CONTROL> req;
  };
  SC_INOUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> din;
    sc_terminal_in<datatype,TT_DATA> dout;
    sc_terminal_out<bool,TT_CONTROL> ack;
    sc_terminal_in<bool,TT_CONTROL> req;
    sc_terminal_in<bool,TT_CONTROL> nRW;
 };

};


template <class datatype>
SC_PROTOCOL(sc_noHandshake) {
  public:
  SC_OUTMASTER_P {
    sc_terminal_out<datatype,TT_DATA> d;
  };
  SC_INMASTER_P {
    sc_terminal_in<datatype,TT_DATA> d;
  };
  SC_INOUTMASTER_P {
    sc_terminal_inout<datatype,TT_DATA> d;
 };
  SC_OUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> d;
  };
  SC_INSLAVE_P {
    sc_terminal_in<datatype,TT_DATA> d;
  };
  SC_INOUTSLAVE_P {
    sc_terminal_inout<datatype,TT_DATA> d;
 };

};


template<class datatype,int size,int adrwidth>
SC_PROTOCOL(sc_memenHandshake) {
  public :
  SC_OUTMASTER_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> en;
    sc_terminal_out<int,TT_ADDRESS> A;
  };
  SC_INMASTER_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> en;
    sc_terminal_out<int,TT_ADDRESS> A;
  };
  SC_INOUTMASTER_P {
    sc_terminal_in<datatype,TT_DATA> din;
    sc_terminal_out<datatype,TT_DATA> dout;
    sc_terminal_out<bool,TT_CONTROL> en;
    sc_terminal_out<bool,TT_CONTROL> nRW;
    sc_terminal_out<int,TT_ADDRESS> A;
 };
  SC_OUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> en;
    sc_terminal_in<int,TT_ADDRESS> A;
  };
  SC_INSLAVE_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> en;
    sc_terminal_in<int,TT_ADDRESS> A;
  };
  SC_INOUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> din;
    sc_terminal_in<datatype,TT_DATA> dout;
    sc_terminal_in<bool,TT_CONTROL> en;
    sc_terminal_in<bool,TT_CONTROL> nRW;
    sc_terminal_in<int,TT_ADDRESS> A;
 };
};

template<class datatype,int size,int adrwidth>
SC_PROTOCOL(sc_memfullHandshake) {
  public :
  SC_OUTMASTER_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> req;
    sc_terminal_in<bool,TT_CONTROL> ack;
    sc_terminal_out<int,TT_ADDRESS> A;
  };
  SC_INMASTER_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_out<bool,TT_CONTROL> req;
    sc_terminal_in<bool,TT_CONTROL> ack;
    sc_terminal_out<int,TT_ADDRESS> A;
  };
  SC_INOUTMASTER_P {
    sc_terminal_in<datatype,TT_DATA> din;
    sc_terminal_out<datatype,TT_DATA> dout;
    sc_terminal_out<bool,TT_CONTROL> req;
    sc_terminal_in<bool,TT_CONTROL> ack;
    sc_terminal_out<bool,TT_CONTROL> nRW;
    sc_terminal_out<int,TT_ADDRESS> A;
 };
  SC_OUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> req;
    sc_terminal_out<bool,TT_CONTROL> ack;
    sc_terminal_out<int,TT_ADDRESS> A;
  };
  SC_INSLAVE_P {
    sc_terminal_in<datatype,TT_DATA> d;
    sc_terminal_in<bool,TT_CONTROL> req;
    sc_terminal_out<bool,TT_CONTROL> ack;
    sc_terminal_in<int,TT_ADDRESS> A;
  };
  SC_INOUTSLAVE_P {
    sc_terminal_out<datatype,TT_DATA> din;
    sc_terminal_in<datatype,TT_DATA> dout;
    sc_terminal_in<bool,TT_CONTROL> req;
    sc_terminal_out<bool,TT_CONTROL> ack;
    sc_terminal_in<bool,TT_CONTROL> nRW;
    sc_terminal_in<int,TT_ADDRESS> A;
 };
};

#endif // SC_REFINED_H