ext/systemc/src/sysc/datatypes/int/sc_int.h - testing/jenkins-gem5-prod - 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.

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

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

   sc_int.h -- A sc_int is a signed integer whose length is less than the
               machine's native integer length. We provide two implementations
               (i) sc_int with length between 1 - 64, and (ii) sc_int with
               length between 1 - 32. Implementation (i) is the default
               implementation, while implementation (ii) can be used only if
               the class library is compiled with -D_32BIT_. Unlike arbitrary
               precision, arithmetic and bitwise operations are performed
               using the native types (hence capped at 32/64 bits). The sc_int
               integer is useful when the user does not need arbitrary
               precision and the performance is superior to
               sc_bigint/sc_biguint.

   Original Author: Amit Rao, Synopsys, Inc.

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

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

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

       Name, Affiliation, Date: Ali Dasdan, Synopsys, Inc.
   Description of Modification: - Resolved ambiguity with sc_(un)signed.
                                - Merged the code for 64- and 32-bit versions
                                  via the constants in sc_nbdefs.h.
                                - Eliminated redundant file inclusions.

       Name, Affiliation, Date:
   Description of Modification:

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

 // $Log: sc_int.h,v $
 // Revision 1.2  2011/02/18 20:19:14  acg
 //  Andy Goodrich: updating Copyright notice.
 //
 // Revision 1.1.1.1  2006/12/15 20:20:05  acg
 // SystemC 2.3
 //
 // Revision 1.3  2006/01/13 18:49:31  acg
 // Added $Log command so that CVS check in comments are reproduced in the
 // source.
 //

 #ifndef SC_INT_H
 #define SC_INT_H


 #include "sysc/datatypes/int/sc_int_base.h"


 namespace sc_dt
 {

 // classes defined in this module
 template <int W> class sc_int;


 // ----------------------------------------------------------------------------
 //  CLASS TEMPLATE : sc_int<W>
 //
 //  Template class sc_int<W> is the interface that the user sees. It is
 //  derived from sc_int_base and most of its methods are just wrappers
 //  that call the corresponding method in the parent class. Note that
 //  the length of sc_int datatype is specified as a template parameter.
 // ----------------------------------------------------------------------------

 template <int W>
 class sc_int
     : public sc_int_base
 {
 public:

     // constructors

     sc_int()
 	: sc_int_base( W )
 	{}

     sc_int( int_type v )
 	: sc_int_base( v, W )
 	{}

     sc_int( const sc_int<W>& a )
 	: sc_int_base( a )
 	{}

     sc_int( const sc_int_base& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( const sc_int_subref_r& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     template< class T >
     sc_int( const sc_generic_base<T>& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a->to_int64() ); }

     sc_int( const sc_signed& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( const sc_unsigned& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

 #ifdef SC_INCLUDE_FX

     explicit sc_int( const sc_fxval& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     explicit sc_int( const sc_fxval_fast& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     explicit sc_int( const sc_fxnum& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     explicit sc_int( const sc_fxnum_fast& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

 #endif

     sc_int( const sc_bv_base& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( const sc_lv_base& a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( const char* a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( unsigned long a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( long a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( unsigned int a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( int a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( uint64 a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }

     sc_int( double a )
 	: sc_int_base( W )
 	{ sc_int_base::operator = ( a ); }


     // assignment operators

     sc_int<W>& operator = ( int_type v )
 	{ sc_int_base::operator = ( v ); return *this; }

     sc_int<W>& operator = ( const sc_int_base& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_int_subref_r& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_int<W>& a )
 	{ m_val = a.m_val; return *this; }

     template< class T >
     sc_int<W>& operator = ( const sc_generic_base<T>& a )
 	{ sc_int_base::operator = ( a->to_int64() ); return *this; }

     sc_int<W>& operator = ( const sc_signed& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_unsigned& a )
 	{ sc_int_base::operator = ( a ); return *this; }

 #ifdef SC_INCLUDE_FX

     sc_int<W>& operator = ( const sc_fxval& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_fxval_fast& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_fxnum& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_fxnum_fast& a )
 	{ sc_int_base::operator = ( a ); return *this; }

 #endif

     sc_int<W>& operator = ( const sc_bv_base& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const sc_lv_base& a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( const char* a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( unsigned long a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( long a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( unsigned int a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( int a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( uint64 a )
 	{ sc_int_base::operator = ( a ); return *this; }

     sc_int<W>& operator = ( double a )
 	{ sc_int_base::operator = ( a ); return *this; }


     // arithmetic assignment operators

     sc_int<W>& operator += ( int_type v )
 	{ sc_int_base::operator += ( v ); return *this; }

     sc_int<W>& operator -= ( int_type v )
 	{ sc_int_base::operator -= ( v ); return *this; }

     sc_int<W>& operator *= ( int_type v )
 	{ sc_int_base::operator *= ( v ); return *this; }

     sc_int<W>& operator /= ( int_type v )
 	{ sc_int_base::operator /= ( v ); return *this; }

     sc_int<W>& operator %= ( int_type v )
 	{ sc_int_base::operator %= ( v ); return *this; }


     // bitwise assignment operators

     sc_int<W>& operator &= ( int_type v )
 	{ sc_int_base::operator &= ( v ); return *this; }

     sc_int<W>& operator |= ( int_type v )
 	{ sc_int_base::operator |= ( v ); return *this; }

     sc_int<W>& operator ^= ( int_type v )
 	{ sc_int_base::operator ^= ( v ); return *this; }


     sc_int<W>& operator <<= ( int_type v )
 	{ sc_int_base::operator <<= ( v ); return *this; }

     sc_int<W>& operator >>= ( int_type v )
 	{ sc_int_base::operator >>= ( v ); return *this; }


     // prefix and postfix increment and decrement operators

     sc_int<W>& operator ++ () // prefix
 	{ sc_int_base::operator ++ (); return *this; }

     const sc_int<W> operator ++ ( int ) // postfix
 	{ return sc_int<W>( sc_int_base::operator ++ ( 0 ) ); }

     sc_int<W>& operator -- () // prefix
 	{ sc_int_base::operator -- (); return *this; }

     const sc_int<W> operator -- ( int ) // postfix
 	{ return sc_int<W>( sc_int_base::operator -- ( 0 ) ); }
 };

 } // namespace sc_dt


 #endif

 // Taf!
	/*****************************************************************************

	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.

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

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

	sc_int.h -- A sc_int is a signed integer whose length is less than the
	machine's native integer length. We provide two implementations
	(i) sc_int with length between 1 - 64, and (ii) sc_int with
	length between 1 - 32. Implementation (i) is the default
	implementation, while implementation (ii) can be used only if
	the class library is compiled with -D_32BIT_. Unlike arbitrary
	precision, arithmetic and bitwise operations are performed
	using the native types (hence capped at 32/64 bits). The sc_int
	integer is useful when the user does not need arbitrary
	precision and the performance is superior to
	sc_bigint/sc_biguint.

	Original Author: Amit Rao, Synopsys, Inc.

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

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

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

	Name, Affiliation, Date: Ali Dasdan, Synopsys, Inc.
	Description of Modification: - Resolved ambiguity with sc_(un)signed.
	- Merged the code for 64- and 32-bit versions
	via the constants in sc_nbdefs.h.
	- Eliminated redundant file inclusions.

	Name, Affiliation, Date:
	Description of Modification:

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

	// $Log: sc_int.h,v $
	// Revision 1.2 2011/02/18 20:19:14 acg
	// Andy Goodrich: updating Copyright notice.
	//
	// Revision 1.1.1.1 2006/12/15 20:20:05 acg
	// SystemC 2.3
	//
	// Revision 1.3 2006/01/13 18:49:31 acg
	// Added $Log command so that CVS check in comments are reproduced in the
	// source.
	//

	#ifndef SC_INT_H
	#define SC_INT_H


	#include "sysc/datatypes/int/sc_int_base.h"


	namespace sc_dt
	{

	// classes defined in this module
	template <int W> class sc_int;


	// ----------------------------------------------------------------------------
	// CLASS TEMPLATE : sc_int<W>
	//
	// Template class sc_int<W> is the interface that the user sees. It is
	// derived from sc_int_base and most of its methods are just wrappers
	// that call the corresponding method in the parent class. Note that
	// the length of sc_int datatype is specified as a template parameter.
	// ----------------------------------------------------------------------------

	template <int W>
	class sc_int
	: public sc_int_base
	{
	public:

	// constructors

	sc_int()
	: sc_int_base( W )
	{}

	sc_int( int_type v )
	: sc_int_base( v, W )
	{}

	sc_int( const sc_int<W>& a )
	: sc_int_base( a )
	{}

	sc_int( const sc_int_base& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( const sc_int_subref_r& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	template< class T >
	sc_int( const sc_generic_base<T>& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a->to_int64() ); }

	sc_int( const sc_signed& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( const sc_unsigned& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	#ifdef SC_INCLUDE_FX

	explicit sc_int( const sc_fxval& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	explicit sc_int( const sc_fxval_fast& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	explicit sc_int( const sc_fxnum& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	explicit sc_int( const sc_fxnum_fast& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	#endif

	sc_int( const sc_bv_base& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( const sc_lv_base& a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( const char* a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( unsigned long a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( long a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( unsigned int a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( int a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( uint64 a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }

	sc_int( double a )
	: sc_int_base( W )
	{ sc_int_base::operator = ( a ); }


	// assignment operators

	sc_int<W>& operator = ( int_type v )
	{ sc_int_base::operator = ( v ); return *this; }

	sc_int<W>& operator = ( const sc_int_base& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_int_subref_r& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_int<W>& a )
	{ m_val = a.m_val; return *this; }

	template< class T >
	sc_int<W>& operator = ( const sc_generic_base<T>& a )
	{ sc_int_base::operator = ( a->to_int64() ); return *this; }

	sc_int<W>& operator = ( const sc_signed& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_unsigned& a )
	{ sc_int_base::operator = ( a ); return *this; }

	#ifdef SC_INCLUDE_FX

	sc_int<W>& operator = ( const sc_fxval& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_fxval_fast& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_fxnum& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_fxnum_fast& a )
	{ sc_int_base::operator = ( a ); return *this; }

	#endif

	sc_int<W>& operator = ( const sc_bv_base& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const sc_lv_base& a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( const char* a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( unsigned long a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( long a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( unsigned int a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( int a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( uint64 a )
	{ sc_int_base::operator = ( a ); return *this; }

	sc_int<W>& operator = ( double a )
	{ sc_int_base::operator = ( a ); return *this; }


	// arithmetic assignment operators

	sc_int<W>& operator += ( int_type v )
	{ sc_int_base::operator += ( v ); return *this; }

	sc_int<W>& operator -= ( int_type v )
	{ sc_int_base::operator -= ( v ); return *this; }

	sc_int<W>& operator *= ( int_type v )
	{ sc_int_base::operator = ( v ); return this; }

	sc_int<W>& operator /= ( int_type v )
	{ sc_int_base::operator /= ( v ); return *this; }

	sc_int<W>& operator %= ( int_type v )
	{ sc_int_base::operator %= ( v ); return *this; }


	// bitwise assignment operators

	sc_int<W>& operator &= ( int_type v )
	{ sc_int_base::operator &= ( v ); return *this; }

	sc_int<W>& operator \|= ( int_type v )
	{ sc_int_base::operator \|= ( v ); return *this; }

	sc_int<W>& operator ^= ( int_type v )
	{ sc_int_base::operator ^= ( v ); return *this; }


	sc_int<W>& operator <<= ( int_type v )
	{ sc_int_base::operator <<= ( v ); return *this; }

	sc_int<W>& operator >>= ( int_type v )
	{ sc_int_base::operator >>= ( v ); return *this; }


	// prefix and postfix increment and decrement operators

	sc_int<W>& operator ++ () // prefix
	{ sc_int_base::operator ++ (); return *this; }

	const sc_int<W> operator ++ ( int ) // postfix
	{ return sc_int<W>( sc_int_base::operator ++ ( 0 ) ); }

	sc_int<W>& operator -- () // prefix
	{ sc_int_base::operator -- (); return *this; }

	const sc_int<W> operator -- ( int ) // postfix
	{ return sc_int<W>( sc_int_base::operator -- ( 0 ) ); }
	};

	} // namespace sc_dt


	#endif

	// Taf!