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scx_signal_int.h
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21 
22  sc_signal_int.cpp -- The sc_signal<sc_dt::sc_int<W> > implementations.
23 
24  Original Author: Andy Goodrich, Forte Design Systems, 2002-10-22
25 
26  *****************************************************************************/
27 
28 /*****************************************************************************
29 
30  MODIFICATION LOG - modifiers, enter your name, affiliation, date and
31  changes you are making here.
32 
33  Name, Affiliation, Date:
34  Description of Modification:
35 
36  *****************************************************************************/
37 
38 /*
39 $Log: scx_signal_int.h,v $
40 Revision 1.1 2011/08/15 17:31:11 acg
41  Andy Goodrich: moved specialized signals from examples to this tree.
42 
43 Revision 1.2 2011/08/15 16:43:24 acg
44  Torsten Maehne: changes to remove unused argument warnings.
45 
46 Revision 1.1.1.1 2006/12/15 20:20:03 acg
47 SystemC 2.3
48 
49 Revision 1.2 2005/12/26 20:11:14 acg
50 Fixed up copyright.
51 
52 Revision 1.1.1.1 2005/12/19 23:16:42 acg
53 First check in of SystemC 2.1 into its own archive.
54 
55 Revision 1.11 2005/04/11 19:05:36 acg
56 Change to sc_clock for Microsoft VCC 6.0. Changes for namespaces
57 
58 Revision 1.10 2005/04/03 22:52:51 acg
59 Namespace changes.
60 
61 Revision 1.9 2005/03/21 22:31:32 acg
62 Changes to sc_core namespace.
63 
64 Revision 1.8 2004/09/27 21:01:59 acg
65 Andy Goodrich - Forte Design Systems, Inc.
66  - This is specialized signal support that allows better use of signals
67  and ports whose target value is a SystemC native type.
68 
69 */
70 
71 
72 
73 #include <systemc>
74 #include <typeinfo>
75 
76 /*****************************************************************************
77 
78  sc_signal_uint.h -- The sc_signal<sc_dt::sc_int<W> > definitions.
79 
80  Original Author: Andy Goodrich, Forte Design Systems, 2002-10-22
81 
82  *****************************************************************************/
83 
84 /*****************************************************************************
85 
86  MODIFICATION LOG - modifiers, enter your name, affiliation, date and
87  changes you are making here.
88 
89  Name, Affiliation, Date:
90  Description of Modification:
91 
92  *****************************************************************************/
93 
94 /*
95 $Log: scx_signal_int.h,v $
96 Revision 1.1 2011/08/15 17:31:11 acg
97  Andy Goodrich: moved specialized signals from examples to this tree.
98 
99 Revision 1.3 2011/08/15 16:43:24 acg
100  Torsten Maehne: changes to remove unused argument warnings.
101 
102 Revision 1.2 2011/06/28 21:23:02 acg
103  Andy Goodrich: merging of SCV tree.
104 
105 Revision 1.1.1.1 2006/12/15 20:20:03 acg
106 SystemC 2.3
107 
108 Revision 1.2 2005/12/26 20:11:14 acg
109 Fixed up copyright.
110 
111 Revision 1.1.1.1 2005/12/19 23:16:42 acg
112 First check in of SystemC 2.1 into its own archive.
113 
114 Revision 1.21 2005/03/21 22:31:32 acg
115 Changes to sc_core namespace.
116 
117 Revision 1.20 2005/01/10 17:51:58 acg
118 Improvements.
119 
120 Revision 1.19 2004/11/09 00:11:26 acg
121 Added support for sc_generic_base<T> in place of sc_concatref. sc_concatref
122 now is derived from sc_generic_base<sc_concatref>.
123 
124 Revision 1.18 2004/09/27 21:01:59 acg
125 Andy Goodrich - Forte Design Systems, Inc.
126  - This is specialized signal support that allows better use of signals
127  and ports whose target value is a SystemC native type.
128 
129 */
130 
131 
132 #if !defined(SC_SIGNAL_INT_H)
133 #define SC_SIGNAL_INT_H
134 
135 #if ( !defined(_MSC_VER) || _MSC_VER > 1200 )
136 # define SC_TEMPLATE template<int W>
137 #else
138 # define SC_TEMPLATE template<> template<int W>
139 #endif
140 
141 
142 // FORWARD REFERENCES AND USINGS:
143 
144 
145 namespace sc_core {
146 
147 class sc_int_sigref;
148 
149 //==============================================================================
150 // CLASS sc_int_part_if
151 //
152 // This class provides generic access to part selections for signals whose
153 // data type is sc_dt::sc_int<W>. This class serves as the base class for the
154 // sc_dt::sc_int<W> specialization of the sc_signal_in_if<T> class. The methods
155 // in this class may be over-ridden individually, those that are not overridden
156 // will produce an error message when called. The methods are used by the
157 // sc_int_sigref class.
158 //
159 // Notes:
160 // (1) Descriptions of the methods and operators in this class appear with
161 // their implementations in sc_signal<sc_dt::sc_int<W> >.
162 //==============================================================================
163 class sc_int_part_if : virtual public sc_interface {
164  protected:
165  // constructor:
167 
168  public:
169  // perform a part read.
171  virtual sc_dt::uint64 read_part( int left, int right ) const;
172 
173  // perform a part write.
174  virtual sc_int_sigref& select_part( int left, int right );
175  virtual void write_part( sc_dt::uint64 v, int left, int right );
176 
177  private:
178  sc_int_part_if( const sc_int_part_if& );
180 };
181 
182 
183 //==============================================================================
184 // CLASS sc_signal_in_if<sc_dt::sc_int<W> >
185 //
186 // This is the class specializations for the sc_signal_in_if<T> class to
187 // provide additional features for sc_signal instances whose template is
188 // sc_dt::sc_int<W>, including part access.
189 //
190 // Notes:
191 // (1) Descriptions of the methods and operators in this class appear with
192 // their implementations in sc_signal<sc_dt::sc_int<W> >.
193 //==============================================================================
194 template< int W >
195 class sc_signal_in_if<sc_dt::sc_int<W> > : public sc_int_part_if {
196  friend class sc_int_sigref;
197  public:
199 
200  // get the value changed event
201  virtual const sc_event& value_changed_event() const = 0;
202 
203 
204  // read the current value
205  virtual const sc_dt::sc_int<W>& read() const = 0;
206 
207  // get a reference to the current value (for tracing)
208  virtual const sc_dt::sc_int<W>& get_data_ref() const = 0;
209 
210 
211  // was there a value changed event?
212  virtual bool event() const = 0;
213 
214  protected:
215  // constructor
217  {}
218 
219  private: // disabled
220  sc_signal_in_if( const this_type& );
221  this_type& operator = ( const this_type& );
222 };
223 
224 //=============================================================================
225 // CLASS : sc_int_sigref
226 //
227 // Proxy class for sc_signal_int bit and part selection.
228 //=============================================================================
230 {
231  public:
233  virtual ~sc_int_sigref() {}
234  virtual void concat_set(sc_dt::int64 src, int low_i);
235  virtual void concat_set(const sc_dt::sc_signed& src, int low_i);
236  virtual void concat_set(const sc_dt::sc_unsigned& src, int low_i);
237  virtual void concat_set(const sc_dt::sc_lv_base& src, int low_i);
238  virtual void concat_set(sc_dt::uint64 src, int low_i);
239 
240  public:
241  inline void initialize( sc_int_part_if* if_p, int left_, int right_ );
242 
243  public:
244  inline void operator = ( sc_dt::uint64 v );
245  inline void operator = ( const char* v );
246  inline void operator = ( unsigned long v );
247  inline void operator = ( long v );
248  inline void operator = ( unsigned int v );
249  inline void operator = ( int v );
250  inline void operator = ( sc_dt::int64 v );
251  inline void operator = ( double v );
252  inline void operator = ( const sc_int_sigref& v );
253  template<typename T>
254  inline void operator = ( const sc_dt::sc_generic_base<T>& v );
255  inline void operator = ( const sc_dt::sc_signed& v );
256  inline void operator = ( const sc_dt::sc_unsigned& v );
257  inline void operator = ( const sc_dt::sc_bv_base& v );
258  inline void operator = ( const sc_dt::sc_lv_base& v );
259 
260  public:
261  static sc_vpool<sc_int_sigref> m_pool; // Pool of objects to use.
262 
263  protected:
264  sc_int_part_if* m_if_p; // Target for selection.
265 
266  private:
267 
268  // disabled
269  sc_int_sigref( const sc_int_sigref& a );
270 };
271 
272 
273 //==============================================================================
274 // CLASS sc_signal<sc_dt::sc_int<W> >
275 //
276 // This class implements a signal whose value acts like an sc_dt::sc_int<W> data
277 // value. This class is a specialization of the generic sc_signal class to
278 // implement tailored support for the sc_dt::sc_int<W> class.
279 //
280 // Notes:
281 // (1) Descriptions of the methods and operators in this class appear with
282 // their implementations.
283 //==============================================================================
285 class sc_signal<sc_dt::sc_int<W> > :
286  public sc_signal_inout_if<sc_dt::sc_int<W> >,
287  public sc_prim_channel,
288  public sc_dt::sc_int<W>
289 {
290  public: // typedefs
292 
293  public: // constructors and destructor:
294  inline sc_signal();
295  explicit inline sc_signal(const char* name_);
296  virtual inline ~sc_signal();
297 
298  public: // base methods:
299  inline bool base_event() const;
300  inline const sc_dt::sc_int<W>& base_read() const;
301  inline const sc_event& base_value_changed_event() const;
302  inline void base_write( sc_dt::int64 value );
303 
304  public: // sc_prim_channel virtual methods:
305  virtual inline const char* kind() const;
306  virtual inline void update();
307 
308  public: // sc_interface virtual methods:
309  virtual inline const sc_event& default_event() const;
310  virtual inline void register_port(
311  sc_port_base& port_, const char* if_typename_ );
312 
313  public: // sc_int_part_if virtual methods:
314  virtual inline sc_dt::sc_int_base* part_read_target();
315  virtual inline sc_dt::uint64 read_part(int left, int right) const;
316  virtual inline sc_int_sigref& select_part(int left, int right);
317  virtual inline void write_part(sc_dt::uint64 v, int left, int right);
318 
319  public: // interface virtual methods:
320  virtual inline bool event() const;
321  virtual inline const sc_dt::sc_int<W>& get_data_ref() const;
322  virtual inline sc_signal<sc_dt::sc_int<W> >& get_signal() ;
323  virtual inline const sc_dt::sc_int<W>& read() const;
324  virtual inline const sc_event& value_changed_event() const;
325  virtual inline void write( const sc_in<sc_dt::sc_int<W> >& value );
326  virtual inline void write( const sc_inout<sc_dt::sc_int<W> >& value );
327  virtual inline void write( const sc_dt::sc_int<W>& value );
328 
329  public: // part selections:
330  inline sc_int_sigref& operator () ( int left, int right );
331  inline sc_int_sigref& operator [] ( int bit );
332 
333  public: // operators:
334  inline void operator = ( const this_type& new_val );
335  inline void operator = ( const char* new_val );
336  inline void operator = ( sc_dt::uint64 new_val );
337  inline void operator = ( sc_dt::int64 new_val );
338  inline void operator = ( int new_val );
339  inline void operator = ( long new_val ) ;
340  inline void operator = ( short new_val ) ;
341  inline void operator = ( unsigned int new_val ) ;
342  inline void operator = ( unsigned long new_val );
343  inline void operator = ( unsigned short new_val );
344  template<typename T>
345  inline void operator = ( const sc_dt::sc_generic_base<T>& new_val );
346  inline void operator = ( const sc_dt::sc_signed& new_val );
347  inline void operator = ( const sc_dt::sc_unsigned& new_val );
348  inline void operator = ( const sc_dt::sc_bv_base& new_val );
349  inline void operator = ( const sc_dt::sc_lv_base& new_val );
350 
351  // concatenation methods (we inherit length and gets from sc_dt::sc_int<W>):
352 
353  virtual inline void concat_set(sc_dt::int64 src, int low_i);
354  virtual inline void concat_set(const sc_dt::sc_lv_base& src, int low_i);
355  virtual inline void concat_set(const sc_dt::sc_signed& src, int low_i);
356  virtual inline void concat_set(const sc_dt::sc_unsigned& src, int low_i);
357  virtual inline void concat_set(sc_dt::uint64 src, int low_i);
358 
359  protected: // debugging methods:
360  // #### void check_port();
361  void check_writer();
362 
363  private: // Disabled operations that sc_dt::sc_int<W> supports:
364  sc_signal<sc_dt::sc_int<W> >& operator ++ (); // prefix
365  const sc_signal<sc_dt::sc_int<W> >& operator ++ (int); // postfix
366  sc_signal<sc_dt::sc_int<W> >& operator -- (); // prefix
367  const sc_signal<sc_dt::sc_int<W> >& operator -- (int); // postfix
376 
377  protected:
378  mutable sc_event* m_changed_event_p; // Value changed event this object.
379  sc_dt::uint64 m_event_delta; // Delta cycle of last event.
380  sc_dt::int64 m_new_val; // New value for this object instance.
381  sc_port_base* m_output_p; // Single write port verify field.
382  sc_process_b* m_writer_p; // Single writer verify field.
383 };
384 
385 
386 SC_TEMPLATE // Return true if a changed event happened in the last delta cycle.
387 inline bool sc_signal<sc_dt::sc_int<W> >::base_event() const
388 {
389  return simcontext()->delta_count() == m_event_delta + 1;
390 }
391 
392 
393 SC_TEMPLATE // Return this object's sc_dt::sc_int<W> object instance.
394 inline const sc_dt::sc_int<W>& sc_signal<sc_dt::sc_int<W> >::base_read() const
395 {
396  return *this;
397 }
398 
399 
400 SC_TEMPLATE // Return the value changed event, allocating it if necessary.
401 inline const sc_event& sc_signal<sc_dt::sc_int<W> >::base_value_changed_event() const
402 {
403  if ( !m_changed_event_p ) m_changed_event_p = new sc_event;
404  return *m_changed_event_p;
405 }
406 
407 
408 SC_TEMPLATE // Select a portion of a value.
409 inline sc_int_sigref& sc_signal<sc_dt::sc_int<W> >::select_part(int left, int right)
410 {
411  sc_int_sigref* result_p = sc_int_sigref::m_pool.allocate();
412  result_p->initialize(this, left, right);
413  return *result_p;
414 }
415 
416 
417 SC_TEMPLATE // Write an sc_dt::uint64 value to this object instance.
418 inline void sc_signal<sc_dt::sc_int<W> >::base_write( sc_dt::int64 value )
419 {
420 # if defined(DEBUG_SYSTEMC)
421  check_writer();
422 # endif
423  m_new_val = value;
424  request_update();
425 }
426 
427 //------------------------------------------------------------------------------
428 //"sc_signal<sc_dt::sc_int<W> >::check_writer"
429 //
430 // This method checks to see if there is more than one writer for this
431 // object instance by keeping track of the process performing the write.
432 //------------------------------------------------------------------------------
434 inline void sc_signal<sc_dt::sc_int<W> >::check_writer()
435 {
437  if( m_writer_p == 0 )
438  {
439  m_writer_p = writer_p;
440  }
441  else if( m_writer_p != writer_p )
442  {
443  sc_signal_invalid_writer( name(), kind(),
444  m_writer_p->name(), writer_p->name() );
445  }
446 }
447 
448 
449 //------------------------------------------------------------------------------
450 //"sc_signal<sc_dt::sc_int<W> >::concat_set"
451 //
452 // These virtual methods allow value assignments to this object instance
453 // from various sources. The position within the supplied source of the
454 // low order bit for this object instance's value is low_i.
455 // src = source value.
456 // low_i = bit within src to serve as low order bit of this object
457 // instance's value.
458 //------------------------------------------------------------------------------
460 inline void sc_signal<sc_dt::sc_int<W> >::concat_set(sc_dt::int64 src, int low_i)
461 {
462  if ( low_i < 64 )
463  {
464  base_write(src >> low_i);
465  }
466  else
467  {
468  base_write( src >> 63 );
469  }
470 }
471 
473 inline void sc_signal<sc_dt::sc_int<W> >::concat_set(const sc_dt::sc_lv_base& src, int low_i)
474 {
475  sc_dt::sc_unsigned tmp(src.length());
476  tmp = src >> low_i;
477  base_write( tmp.to_int64() );
478 }
479 
481 inline void sc_signal<sc_dt::sc_int<W> >::concat_set(const sc_dt::sc_signed& src, int low_i)
482 {
483  base_write( (src >> low_i).to_int64());
484 }
485 
487 inline void sc_signal<sc_dt::sc_int<W> >::concat_set(const sc_dt::sc_unsigned& src, int low_i)
488 {
489  base_write( (src >> low_i).to_int64());
490 }
491 
493 inline void sc_signal<sc_dt::sc_int<W> >::concat_set(sc_dt::uint64 src, int low_i)
494 {
495  base_write( ( low_i < 64 ) ? src >> low_i : 0 );
496 }
497 
498 
499 
500 SC_TEMPLATE // Return the default event for this object instance.
501 inline const sc_event& sc_signal<sc_dt::sc_int<W> >::default_event() const
502  { return base_value_changed_event(); }
503 
504 
505 SC_TEMPLATE // Return true if a changed event happened in the last delta cycle.
507  { return base_event(); }
508 
509 
510 SC_TEMPLATE // Return a reference to the value of this object instance.
511 inline const sc_dt::sc_int<W>& sc_signal<sc_dt::sc_int<W> >::get_data_ref() const
512  { return *this; }
513 
514 
515 SC_TEMPLATE // Return a pointer to this object instance.
517  { return *this; }
518 
519 
520 SC_TEMPLATE // Return a kind value of "sc_signal".
521 inline const char* sc_signal<sc_dt::sc_int<W> >::kind() const
522 {
523  return "sc_signal";
524 }
525 
526 
527 //------------------------------------------------------------------------------
528 //"sc_signal_uint::operator ()
529 //
530 // This operator returns a part selection of this object instance.
531 // left = left-hand bit of the selection.
532 // right = right-hand bit of the selection.
533 //------------------------------------------------------------------------------
535 inline sc_int_sigref& sc_signal<sc_dt::sc_int<W> >::operator () (int left, int right)
536 {
537  sc_int_sigref* result_p; // Value to return.
538 
539  result_p = sc_int_sigref::m_pool.allocate();
540  result_p->initialize(this, left, right);
541  return *result_p;
542 }
543 
544 
545 //------------------------------------------------------------------------------
546 //"sc_signal_uint::operator []"
547 //
548 // This operator returns a bit selection of this object instance.
549 // i = bit to be selected.
550 //------------------------------------------------------------------------------
552 inline sc_int_sigref& sc_signal<sc_dt::sc_int<W> >::operator [] ( int bit )
553 {
554  return operator () (bit,bit);
555 }
556 
557 
559 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( const this_type& new_val )
560  { base_write( (sc_dt::int64)new_val ); }
561 
563 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( const char* new_val )
564  { m_new_val = sc_dt::sc_int<64>(new_val); request_update(); }
565 
567 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( sc_dt::uint64 new_val )
568  { base_write((sc_dt::int64)new_val); }
569 
571 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( sc_dt::int64 new_val )
572  { base_write(new_val); }
573 
575 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( int new_val )
576  { base_write((sc_dt::int64)new_val); }
577 
579 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( long new_val )
580  { base_write((sc_dt::int64)new_val); }
581 
583 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( short new_val )
584  { base_write((sc_dt::int64)new_val); }
585 
587 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( unsigned int new_val )
588  { base_write((sc_dt::int64)new_val); }
589 
591 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( unsigned long new_val )
592  { base_write((sc_dt::int64)new_val); }
593 
595 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( unsigned short new_val )
596  { base_write((sc_dt::int64)new_val); }
597 
598 
600 template<typename T>
601 inline void sc_signal<sc_dt::sc_int<W> >::operator = (
602  const sc_dt::sc_generic_base<T>& new_val )
603  { base_write(new_val->to_int64()); }
604 
606 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( const sc_dt::sc_signed& new_val )
607  { base_write(new_val.to_int64()); }
608 
610 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( const sc_dt::sc_unsigned& new_val )
611  { base_write(new_val.to_int64()); }
612 
614 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( const sc_dt::sc_bv_base& new_val )
615  { base_write( (sc_dt::sc_int<W>)new_val ); }
616 
618 inline void sc_signal<sc_dt::sc_int<W> >::operator = ( const sc_dt::sc_lv_base& new_val )
619  { base_write( (sc_dt::sc_int<W>)new_val ); }
620 
621 
623 inline sc_dt::sc_int_base* sc_signal<sc_dt::sc_int<W> >::part_read_target()
624  { return this; }
625 
626 
628 inline const sc_dt::sc_int<W>& sc_signal<sc_dt::sc_int<W> >::read() const
629  { return *this; }
630 
631 
632 SC_TEMPLATE // Read a portion of a value.
633 inline sc_dt::uint64 sc_signal<sc_dt::sc_int<W> >::read_part( int left, int right ) const
634 {
635  // This pointer required for HP aCC.
636  return (this->m_val & ~sc_dt::mask_int[left][right]) >> right;
637 }
638 
640 inline void sc_signal<sc_dt::sc_int<W> >::register_port(
641  sc_port_base& port_, const char* if_typename_ )
642 {
643 # ifdef DEBUG_SYSTEMC
644  std::string nm( if_typename_ );
645  if( nm == typeid( sc_signal_inout_if<sc_dt::sc_int<W> > ).name() )
646  {
647  if( m_output_p != 0 )
648  {
649  sc_signal_invalid_writer( name(), kind(),
650  m_output_p->name(), port_.name() );
651  }
652  m_output_p = &port_;
653  }
654 # else
655  if ( &port_ && if_typename_ ) {} // Silence unused args warning.
656 # endif
657 }
658 
659 
660 SC_TEMPLATE // Autogenerated name object instance constructor.
662  sc_prim_channel(sc_gen_unique_name( "signal" )),
663  m_changed_event_p(0),
664  m_output_p(0),
665  m_writer_p(0)
666 { }
667 
668 
669 SC_TEMPLATE // Explicitly named object instance constructor.
670 inline sc_signal<sc_dt::sc_int<W> >::sc_signal(const char* name_) :
671  sc_prim_channel(name_),
672  m_changed_event_p(0),
673  m_output_p(0),
674  m_writer_p(0)
675 { }
676 
677 
678 SC_TEMPLATE // Object instance destructor.
679 inline sc_signal<sc_dt::sc_int<W> >::~sc_signal()
680 {
681  if ( m_changed_event_p ) delete m_changed_event_p;
682 }
683 
684 
685 SC_TEMPLATE // Update the current value from new value.
686 inline void sc_signal<sc_dt::sc_int<W> >::update()
687 {
688  if ( m_changed_event_p )
689  {
690  // This pointer required for HP aCC.
691  sc_dt::int64 old_val = this->m_val;
693  if ( old_val != this->m_val )
694  {
695  m_changed_event_p->notify_delayed();
696  m_event_delta = simcontext()->delta_count();
697  }
698  }
699  else
700  {
702  }
703 }
704 
705 
706 SC_TEMPLATE // Return the value changed event.
707 inline const sc_event& sc_signal<sc_dt::sc_int<W> >::value_changed_event() const
708  { return base_value_changed_event(); }
709 
710 
711 SC_TEMPLATE // Write a sc_in<sc_dt::sc_int<W> > value to this object instance.
712 inline void sc_signal<sc_dt::sc_int<W> >::write( const sc_in<sc_dt::sc_int<W> >& value )
713  { base_write( value.operator sc_dt::int64 () ); }
714 
715 
716 SC_TEMPLATE // Write a sc_inout<sc_dt::sc_int<W> > value to this object instance.
717 inline void sc_signal<sc_dt::sc_int<W> >::write( const sc_inout<sc_dt::sc_int<W> >& value )
718  { base_write( value.operator sc_dt::int64 () ); }
719 
720 
721 SC_TEMPLATE // Write a sc_dt::sc_int<W> value to this object instance.
722 inline void sc_signal<sc_dt::sc_int<W> >::write( const sc_dt::sc_int<W>& value )
723  { base_write( value); }
724 
725 
726 SC_TEMPLATE // Write a portion of a value. If this is the first write in
727  // a delta cycle we copy the existing value before setting the bits.
728 inline void sc_signal<sc_dt::sc_int<W> >::write_part( sc_dt::uint64 v, int left, int right )
729 {
730  sc_dt::int64 new_v; // New value.
731  sc_dt::uint64 keep; // Keep mask value.
732 
733  keep = sc_dt::mask_int[left][right];
734  new_v = (m_new_val & keep) | ((v << right) & ~keep);
735  if ( m_new_val != new_v ) request_update();
736  m_new_val = new_v;
737 }
738 
739 
740 //==============================================================================
741 // CLASS sc_in<sc_dt::sc_int<W> >
742 //
743 // This class implements an input port whose target acts like an sc_dt::sc_int<W> data
744 // value. This class is a specialization of the generic sc_in class to
745 // implement tailored support for the sc_dt::sc_int<W> class.
746 //==============================================================================
748 class sc_in<sc_dt::sc_int<W> > :
749  public sc_port<sc_signal_in_if<sc_dt::sc_int<W> >, 1>,
750  public sc_dt::sc_value_base
751 {
752  public:
753 
754  // typedefs
755 
760 
765 
766  public:
767 
768  // bind methods and operators:
769 
770  void bind( const in_if_type& interface_ )
771  { sc_port_base::bind( const_cast<in_if_type&>( interface_) );}
772  void operator () ( const in_if_type& interface_ )
773  { sc_port_base::bind( const_cast<in_if_type&>( interface_) );}
774  void bind( in_port_type& parent_ )
775  { sc_port_base::bind(parent_);}
776  void operator () ( in_port_type& parent_ )
777  { sc_port_base::bind(parent_);}
778  void bind( inout_port_type& parent_ )
779  { sc_port_base::bind(parent_);}
780  void operator () ( inout_port_type& parent_ )
781  { sc_port_base::bind(parent_);}
782 
783  protected:
784  // called by pbind (for internal use only)
785  virtual inline int vbind( sc_interface& interface_ )
786  {
787  return sc_port_b<if_type>::vbind( interface_ );
788  }
789  virtual inline int vbind( sc_port_base& parent_ )
790  {
791  in_port_type* in_parent = dynamic_cast<in_port_type*>( &parent_ );
792  if( in_parent != 0 ) {
793  sc_port_base::bind( *in_parent );
794  return 0;
795  }
796  inout_port_type* inout_parent = dynamic_cast<inout_port_type*>( &parent_ );
797  if( inout_parent != 0 ) {
798  sc_port_base::bind( *inout_parent );
799  return 0;
800  }
801  // type mismatch
802  return 2;
803  }
804 
805 
806  // constructors
807 
808  public:
810  : base_type(), m_traces( 0 )
811  {}
812 
813  explicit sc_in( const char* name_ )
814  : base_type( name_ ), m_traces( 0 )
815  {}
816 
817  explicit sc_in( const in_if_type& interface_ )
818  : base_type( const_cast<in_if_type&>( interface_ ) ), m_traces( 0 )
819  {}
820 
821  sc_in( const char* name_, const in_if_type& interface_ )
822  : base_type( name_, const_cast<in_if_type&>( interface_ ) ), m_traces( 0 )
823  {}
824 
825  explicit sc_in( in_port_type& parent_ )
826  : base_type( parent_ ), m_traces( 0 )
827  {}
828 
829  sc_in( const char* name_, in_port_type& parent_ )
830  : base_type( name_, parent_ ), m_traces( 0 )
831  {}
832 
833  explicit sc_in( inout_port_type& parent_ )
834  : base_type(), m_traces( 0 )
835  { sc_port_base::bind( parent_ ); }
836 
837  sc_in( const char* name_, inout_port_type& parent_ )
838  : base_type( name_ ), m_traces( 0 )
839  { sc_port_base::bind( parent_ ); }
840 
841  sc_in( this_type& parent_ )
842  : base_type( parent_ ), m_traces( 0 )
843  {}
844 
845  sc_in( const char* name_, this_type& parent_ )
846  : base_type( name_, parent_ ), m_traces( 0 )
847  {}
848 
849 
850  // destructor
851 
852  virtual inline ~sc_in()
853  {
854  remove_traces();
855  }
856 
857  // bit and part selection
858 
859  sc_dt::sc_int_bitref_r operator [] ( int i ) const
860  { return (*this)->read()[i]; }
862  { return (*this)->read()[i]; }
863  sc_dt::sc_int_subref_r operator () ( int left, int right ) const
864  { return (*this)->read()(left,right); }
865  sc_dt::sc_int_subref_r range( int left, int right ) const
866  { return (*this)->read()(left,right); }
867 
868 
869  // interface access shortcut methods
870 
871  // get the default event
872 
873  const sc_event& default_event() const
874  { return (*this)->value_changed_event(); }
875 
876 
877  // get the value changed event
878 
880  { return (*this)->value_changed_event(); }
881 
882 
883  // read the current value
884 
885  const sc_dt::sc_int<W>& read() const
886  { return (*this)->read(); }
887 
888  operator sc_dt::int64 () const
889  { return (sc_dt::int64)(*this)->read(); }
890 
891  // was there a value changed event?
892 
893  bool event() const
894  { return (*this)->event(); }
895 
896 
897  // (other) event finder method(s)
898 
900  {
901  return *new sc_event_finder_t<in_if_type>(
902  *this, &in_if_type::value_changed_event );
903  }
904 
905 
906 
907  // reduction methods:
908 
909  inline bool and_reduce() const
910  { return (*this)->read().and_reduce(); }
911  inline bool nand_reduce() const
912  { return (*this)->read().nand_reduce(); }
913  inline bool nor_reduce() const
914  { return (*this)->read().nor_reduce(); }
915  inline bool or_reduce() const
916  { return (*this)->read().or_reduce(); }
917  inline bool xnor_reduce() const
918  { return (*this)->read().xnor_reduce(); }
919  inline bool xor_reduce() const
920  { return (*this)->read().xor_reduce(); }
921 
922 
923  // called when elaboration is done
924  /* WHEN DEFINING THIS METHOD IN A DERIVED CLASS, */
925  /* MAKE SURE THAT THIS METHOD IS CALLED AS WELL. */
926 
927  virtual inline void end_of_elaboration()
928  {
929  if( m_traces != 0 ) {
930  for( unsigned int i = 0; i < m_traces->size(); ++ i ) {
931  sc_trace_params* p = (*m_traces)[i];
932  sc_trace( p->tf, read(), p->name );
933  }
934  remove_traces();
935  }
936  }
937 
938  virtual inline const char* kind() const
939  { return "sc_in"; }
940 
941 
942  // called by sc_trace
943  void add_trace( sc_trace_file* tf_, const std::string& name_ ) const
944  {
945  if( tf_ != 0 ) {
946  if( m_traces == 0 ) {
947  m_traces = new sc_trace_params_vec;
948  }
949  m_traces->push_back( new sc_trace_params( tf_, name_ ) );
950  }
951  }
952 
953 
954  // concatenation methods
955 
956  virtual inline int concat_length(bool* xz_present_p) const
957  { return (*this)->read().concat_length( xz_present_p ); }
958  virtual inline sc_dt::uint64 concat_get_uint64() const
959  { return (*this)->read().concat_get_uint64(); }
960  virtual
961  inline bool concat_get_ctrl( sc_dt::sc_digit* dst_p, int low_i ) const
962  { return (*this)->read().concat_get_ctrl(dst_p, low_i); }
963  virtual
964  inline bool concat_get_data( sc_dt::sc_digit* dst_p, int low_i ) const
965  { return (*this)->read().concat_get_data(dst_p, low_i); }
966 
967  protected:
968  void remove_traces() const
969  {
970  if( m_traces != 0 ) {
971  for( int i = m_traces->size() - 1; i >= 0; -- i ) {
972  delete (*m_traces)[i];
973  }
974  delete m_traces;
975  m_traces = 0;
976  }
977  }
978 
980 
981 
982  private:
983 
984  // disabled
985  sc_in( const sc_in<sc_dt::sc_int<W> >& );
987 
988 #ifdef __GNUC__
989  // Needed to circumvent a problem in the g++-2.95.2 compiler:
990  // This unused variable forces the compiler to instantiate
991  // an object of T template so an implicit conversion from
992  // read() to a C++ intrinsic data type will work.
993  static data_type dummy;
994 #endif
995 
996 };
997 
998 
999 
1001 inline std::ostream& operator << (std::ostream& os, const sc_in<sc_dt::sc_int<W> >& a)
1002 {
1003  a.read().print( os );
1004  return os;
1005 }
1006 
1007 
1008 //==============================================================================
1009 // CLASS sc_inout<sc_dt::sc_int<W> >
1010 //
1011 // This class implements an input/output port whose target acts like an
1012 // sc_dt::sc_int<W> data value. It is derived from the sc_int_in. This class is a
1013 // specialization of the generic sc_inout class to implement tailored support
1014 // for the sc_dt::sc_int<W> class.
1015 //==============================================================================
1017 class sc_inout<sc_dt::sc_int<W> > :
1018  public sc_port<sc_signal_inout_if<sc_dt::sc_int<W> >, 1>,
1019  public sc_dt::sc_value_base
1020 {
1021  public:
1022 
1023  // typedefs
1024 
1029 
1032 
1033  public:
1034 
1035  // bind methods and operators:
1036 
1037  void bind( const inout_if_type& interface_ )
1038  { sc_port_base::bind( const_cast<inout_if_type&>( interface_) ); }
1039  void operator () ( const inout_if_type& interface_ )
1040  { sc_port_base::bind( const_cast<inout_if_type&>( interface_) ); }
1041  void bind( inout_port_type& parent_ )
1042  { sc_port_base::bind(parent_); }
1044  { sc_port_base::bind(parent_); }
1045 
1046  protected:
1047  // called by pbind (for internal use only)
1048  virtual inline int vbind( sc_interface& interface_ )
1049  {
1050  return sc_port_b<if_type>::vbind( interface_ );
1051  }
1052  virtual inline int vbind( sc_port_base& parent_ )
1053  {
1054  inout_port_type* inout_parent = dynamic_cast<inout_port_type*>( &parent_ );
1055  if( inout_parent != 0 ) {
1056  sc_port_base::bind( *inout_parent );
1057  return 0;
1058  }
1059  // type mismatch
1060  return 2;
1061  }
1062 
1063 
1064  // constructors
1065 
1066  public:
1068  : base_type(), m_init_val_p(0), m_traces( 0 )
1069  {}
1070 
1071  explicit sc_inout( const char* name_ )
1072  : base_type( name_ ), m_init_val_p(0), m_traces( 0 )
1073  {}
1074 
1075  explicit sc_inout( inout_if_type& interface_ )
1076  : base_type( interface_ ), m_init_val_p(0), m_traces( 0 )
1077  {}
1078 
1079  sc_inout( const char* name_, inout_if_type& interface_ )
1080  : base_type( name_, interface_ ), m_init_val_p(0), m_traces( 0 )
1081  {}
1082 
1083  explicit sc_inout( inout_port_type& parent_ )
1084  : base_type( parent_ ), m_init_val_p(0), m_traces( 0 )
1085  {}
1086 
1087  sc_inout( const char* name_, inout_port_type& parent_ )
1088  : base_type( name_, parent_ ), m_init_val_p(0), m_traces( 0 )
1089  {}
1090 
1091  sc_inout( this_type& parent_ )
1092  : base_type( parent_ ), m_init_val_p(0), m_traces( 0 )
1093  {}
1094 
1095  sc_inout( const char* name_, this_type& parent_ )
1096  : base_type( name_, parent_ ), m_init_val_p(0), m_traces( 0 )
1097  {}
1098 
1099 
1100  // destructor
1101 
1102  virtual inline ~sc_inout()
1103  {
1104  remove_traces();
1105  }
1106 
1107  // bit and part selection
1108 
1110  { return (*this)->read()[i]; }
1112  { return (*this)->read()[i]; }
1114  { return (*this)->select_part(i,i); }
1116  { return (*this)->select_part(i,i); }
1117  sc_dt::sc_int_subref_r operator () ( int left, int right ) const
1118  { return (*this)->read()(left,right); }
1119  sc_dt::sc_int_subref_r range( int left, int right ) const
1120  { return (*this)->read()(left,right); }
1121  sc_int_sigref& operator () ( int left, int right )
1122  { return (*this)->select_part(left,right); }
1123  sc_int_sigref& range( int left, int right )
1124  { return (*this)->select_part(left,right); }
1125 
1126 
1127  // interface access shortcut methods
1128 
1129  // get the default event
1130 
1131  const sc_event& default_event() const
1132  { return (*this)->value_changed_event(); }
1133 
1134 
1135  // get the value changed event
1136 
1138  { return (*this)->value_changed_event(); }
1139 
1140 
1141  // read the current value
1142 
1143  const sc_dt::sc_int<W>& read() const
1144  { return (*this)->read(); }
1145 
1146  operator sc_dt::int64 () const
1147  { return (sc_dt::int64)(*this)->read(); }
1148 
1149  // was there a value changed event?
1150 
1151  bool event() const
1152  { return (*this)->event(); }
1153 
1154 
1155  // (other) event finder method(s)
1156 
1158  {
1160  *this, &inout_if_type::value_changed_event );
1161  }
1162 
1163 
1164 
1165  // reduction methods:
1166 
1167  inline bool and_reduce() const
1168  { return (*this)->read().and_reduce(); }
1169  inline bool nand_reduce() const
1170  { return (*this)->read().nand_reduce(); }
1171  inline bool nor_reduce() const
1172  { return (*this)->read().nor_reduce(); }
1173  inline bool or_reduce() const
1174  { return (*this)->read().or_reduce(); }
1175  inline bool xnor_reduce() const
1176  { return (*this)->read().xnor_reduce(); }
1177  inline bool xor_reduce() const
1178  { return (*this)->read().xor_reduce(); }
1179 
1180 
1181  // called when elaboration is done
1182  /* WHEN DEFINING THIS METHOD IN A DERIVED CLASS, */
1183  /* MAKE SURE THAT THIS METHOD IS CALLED AS WELL. */
1184 
1185  virtual inline void end_of_elaboration()
1186  {
1187  if( m_init_val_p != 0 ) {
1188  (*this)->write( (sc_dt::int64) *m_init_val_p );
1189  delete m_init_val_p;
1190  m_init_val_p = 0;
1191  }
1192  if( m_traces != 0 ) {
1193  for( unsigned int i = 0; i < m_traces->size(); ++ i ) {
1194  sc_trace_params* p = (*m_traces)[i];
1195  sc_trace( p->tf, read(), p->name );
1196  }
1197  remove_traces();
1198  }
1199  }
1200 
1201  virtual inline const char* kind() const
1202  { return "sc_inout"; }
1203 
1204  // value initialization
1205 
1206  inline void initialize( const sc_dt::sc_int<W>& value_ )
1207  {
1208  inout_if_type* iface = this->get_interface(0);
1209  if( iface != 0 ) {
1210  iface->write( value_ );
1211  } else {
1212  if( m_init_val_p == 0 ) {
1213  m_init_val_p = new sc_dt::int64;
1214  }
1215  *m_init_val_p = value_;
1216  }
1217  }
1218 
1219 
1220  // called by sc_trace
1221  void add_trace( sc_trace_file* tf_, const std::string& name_ ) const
1222  {
1223  if( tf_ != 0 ) {
1224  if( m_traces == 0 ) {
1225  m_traces = new sc_trace_params_vec;
1226  }
1227  m_traces->push_back( new sc_trace_params( tf_, name_ ) );
1228  }
1229  }
1230 
1231 
1232  // concatenation methods
1233 
1234  virtual inline int concat_length(bool* xz_present_p) const
1235  { return (*this)->read().concat_length( xz_present_p ); }
1236  virtual inline sc_dt::uint64 concat_get_uint64() const
1237  { return (*this)->read().concat_get_uint64(); }
1238  virtual
1239  inline bool concat_get_ctrl( sc_dt::sc_digit* dst_p, int low_i ) const
1240  { return (*this)->read().concat_get_ctrl(dst_p, low_i); }
1241  virtual
1242  inline bool concat_get_data( sc_dt::sc_digit* dst_p, int low_i ) const
1243  { return (*this)->read().concat_get_data(dst_p, low_i); }
1244  virtual inline void concat_set(sc_dt::int64 src, int low_i)
1245  { *this = src >> (( low_i < 64 ) ? low_i : 63); }
1246 #if 0 // ####
1247  virtual inline void concat_set(const sc_dt::sc_lv_base& src, int low_i)
1248  { *this = src >> low_i; }
1249 #endif // 0 ####
1250  virtual inline void concat_set(const sc_dt::sc_signed& src, int low_i)
1251  { *this = src >> low_i; }
1252  virtual inline void concat_set(const sc_dt::sc_unsigned& src, int low_i)
1253  { *this = src >> low_i; }
1254  virtual inline void concat_set(sc_dt::uint64 src, int low_i)
1255  { *this = ( low_i < 64 ) ? src >> low_i : (sc_dt::uint64)0; }
1256 
1257  // assignment operators:
1258 
1259  public:
1260  inline void operator = ( const this_type& new_val )
1261  { (*this)->write( (sc_dt::int64)new_val ); }
1262  inline void operator = ( const char* new_val )
1263  { (*this)->write( this_type(new_val) ); }
1264  inline void operator = ( sc_dt::uint64 new_val )
1265  { (*this)->write(new_val); }
1266  inline void operator = ( sc_dt::int64 new_val )
1267  { (*this)->write((sc_dt::uint64)new_val); }
1268  inline void operator = ( int new_val )
1269  { (*this)->write((sc_dt::uint64)new_val); }
1270  inline void operator = ( long new_val )
1271  { (*this)->write((sc_dt::uint64)new_val); }
1272  inline void operator = ( short new_val )
1273  { (*this)->write((sc_dt::uint64)new_val); }
1274  inline void operator = ( unsigned int new_val )
1275  { (*this)->write((sc_dt::uint64)new_val); }
1276  inline void operator = ( unsigned long new_val )
1277  { (*this)->write((sc_dt::uint64)new_val); }
1278  inline void operator = ( unsigned short new_val )
1279  { (*this)->write((sc_dt::uint64)new_val); }
1280  template<typename T>
1281  inline void operator = ( const sc_dt::sc_generic_base<T>& new_val )
1282  { (*this)->write(new_val->to_uint64()); }
1283  inline void operator = ( const sc_dt::sc_signed& new_val )
1284  { (*this)->write(new_val.to_uint64()); }
1285  inline void operator = ( const sc_dt::sc_unsigned& new_val )
1286  { (*this)->write(new_val.to_uint64()); }
1287  inline void operator = ( const sc_dt::sc_bv_base& new_val )
1288  { (*this)->write((sc_dt::sc_int<W>)new_val); }
1289  inline void operator = ( const sc_dt::sc_lv_base& new_val )
1290  { (*this)->write((sc_dt::sc_int<W>)new_val); }
1291 
1292  inline void write( const sc_in<sc_dt::sc_int<W> >& new_val )
1293  { (*this)->write( (sc_dt::int64)new_val ); }
1294 
1295  inline void write( const sc_inout<sc_dt::sc_int<W> >& new_val )
1296  { (*this)->write( (sc_dt::int64)new_val); }
1297 
1298  inline void write( const sc_dt::sc_int<W>& new_val )
1299  { (*this)->write( (sc_dt::int64)new_val); }
1300 
1301  protected:
1302  void remove_traces() const
1303  {
1304  if( m_traces != 0 ) {
1305  for( int i = m_traces->size() - 1; i >= 0; -- i ) {
1306  delete (*m_traces)[i];
1307  }
1308  delete m_traces;
1309  m_traces = 0;
1310  }
1311  }
1312 
1315 
1316 
1317  private:
1318 
1319  // disabled
1320  sc_inout( const sc_inout<sc_dt::sc_int<W> >& );
1321 
1322 #ifdef __GNUC__
1323  // Needed to circumvent a problem in the g++-2.95.2 compiler:
1324  // This unused variable forces the compiler to instantiate
1325  // an object of T template so an implicit conversion from
1326  // read() to a C++ intrinsic data type will work.
1327  static data_type dummy;
1328 #endif
1329 
1330 };
1331 
1332 
1333 
1335 inline std::ostream& operator << (
1336  std::ostream& os, const sc_inout<sc_dt::sc_int<W> >& a )
1337 {
1338  a.read().print( os );
1339  return os;
1340 }
1341 
1342 
1343 //==============================================================================
1344 // CLASS sc_out<sc_dt::sc_int<W> >
1345 //
1346 // This class implements an output port whose target acts like an
1347 // sc_dt::sc_int<W> data value. This class is a derivation of sc_inout, since
1348 // output ports are really no different from input/output ports.
1349 //==============================================================================
1351 class sc_out<sc_dt::sc_int<W> > : public sc_inout<sc_dt::sc_int<W> >
1352 {
1353  public:
1354 
1355  // typedefs
1356 
1358 
1361 
1362  typedef typename base_type::inout_if_type inout_if_type;
1363  typedef typename base_type::inout_port_type inout_port_type;
1364 
1365  // constructors
1366 
1368  : base_type()
1369  {}
1370 
1371  explicit sc_out( const char* name_ )
1372  : base_type( name_ )
1373  {}
1374 
1375  explicit sc_out( inout_if_type& interface_ )
1376  : base_type( interface_ )
1377  {}
1378 
1379  sc_out( const char* name_, inout_if_type& interface_ )
1380  : base_type( name_, interface_ )
1381  {}
1382 
1383  explicit sc_out( inout_port_type& parent_ )
1384  : base_type( parent_ )
1385  {}
1386 
1387  sc_out( const char* name_, inout_port_type& parent_ )
1388  : base_type( name_, parent_ )
1389  {}
1390 
1391  sc_out( this_type& parent_ )
1392  : base_type( parent_ )
1393  {}
1394 
1395  sc_out( const char* name_, this_type& parent_ )
1396  : base_type( name_, parent_ )
1397  {}
1398 
1399 
1400  // destructor (does nothing)
1401 
1402  virtual inline ~sc_out()
1403  {}
1404 
1405 
1406  // assignment operators:
1407 
1408  public:
1409  inline void operator = ( const this_type& new_val )
1410  { (*this)->write( (sc_dt::int64)new_val ); }
1411  inline void operator = ( const char* new_val )
1412  { (*this)->write( this_type(new_val) ); }
1413  inline void operator = ( sc_dt::uint64 new_val )
1414  { (*this)->write(new_val); }
1415  inline void operator = ( sc_dt::int64 new_val )
1416  { (*this)->write((sc_dt::uint64)new_val); }
1417  inline void operator = ( int new_val )
1418  { (*this)->write((sc_dt::uint64)new_val); }
1419  inline void operator = ( long new_val )
1420  { (*this)->write((sc_dt::uint64)new_val); }
1421  inline void operator = ( short new_val )
1422  { (*this)->write((sc_dt::uint64)new_val); }
1423  inline void operator = ( unsigned int new_val )
1424  { (*this)->write((sc_dt::uint64)new_val); }
1425  inline void operator = ( unsigned long new_val )
1426  { (*this)->write((sc_dt::uint64)new_val); }
1427  inline void operator = ( unsigned short new_val )
1428  { (*this)->write((sc_dt::uint64)new_val); }
1429  template<typename T>
1430  inline void operator = ( const sc_dt::sc_generic_base<T>& new_val )
1431  { (*this)->write(new_val->to_uint64()); }
1432  inline void operator = ( const sc_dt::sc_signed& new_val )
1433  { (*this)->write(new_val); }
1434  inline void operator = ( const sc_dt::sc_unsigned& new_val )
1435  { (*this)->write(new_val); }
1436  inline void operator = ( const sc_dt::sc_bv_base& new_val )
1437  { (*this)->write((sc_dt::sc_int<W>)new_val); }
1438  inline void operator = ( const sc_dt::sc_lv_base& new_val )
1439  { (*this)->write((sc_dt::sc_int<W>)new_val); }
1440 
1441  private:
1442 
1443  // disabled
1444  sc_out( const this_type& );
1445 };
1446 
1447 
1448 
1449 //------------------------------------------------------------------------------
1450 //"sc_int_sigref::initialize"
1451 //
1452 // This method initializes an object instance from the supplied arguments.
1453 // if_p -> access to target of this selection.
1454 // left = left-most bit in selection.
1455 // right = right-most bit in selection.
1456 //------------------------------------------------------------------------------
1457 inline
1458 void sc_int_sigref::initialize(sc_int_part_if* if_p, int left, int right)
1459 {
1460  m_if_p = if_p;
1461  m_left = left;
1462  m_right = right;
1463  m_obj_p = if_p->part_read_target();
1464 }
1465 
1466 
1467 //------------------------------------------------------------------------------
1468 //"sc_int_sigref::operator ="
1469 //
1470 // These operators assign a value to the bits associated with this object
1471 // instance within this object instance's target signal.
1472 //------------------------------------------------------------------------------
1474 {
1476 }
1477 
1478 inline void sc_int_sigref::operator = ( const char* /*v*/ )
1479 {
1480 }
1481 
1483 {
1484  *this = (sc_dt::uint64)v;
1485 }
1486 
1487 inline void sc_int_sigref:: operator = ( int v )
1488 {
1489  *this = (sc_dt::uint64)v;
1490 }
1491 
1492 inline void sc_int_sigref:: operator = ( long v )
1493 {
1494  *this = (sc_dt::uint64)v;
1495 }
1496 
1497 inline void sc_int_sigref:: operator = ( unsigned int v )
1498 {
1499  *this = (sc_dt::uint64)v;
1500 }
1501 
1502 inline void sc_int_sigref:: operator = ( unsigned long v )
1503 {
1504  *this = (sc_dt::uint64)v;
1505 }
1506 
1508 {
1509  *this = (sc_dt::uint64)v;
1510 }
1511 
1512 template<typename T>
1514 {
1515  *this = v->to_uint64();
1516 }
1517 
1519 {
1520  *this = v.to_uint64();
1521 }
1522 
1524 {
1525  *this = v.to_uint64();
1526 }
1527 
1528 #undef SC_TEMPLATE
1529 #undef TTEST
1530 } // namespace sc_core
1531 #endif // !defined(SC_SIGNAL_INT_H)
1532 
1533 namespace sc_core {
1534 
1535 extern
1536 void
1537 sc_signal_invalid_writer( const char* name,
1538  const char* kind,
1539  const char* first_writer,
1540  const char* second_writer );
1541 
1542 //------------------------------------------------------------------------------
1543 // POOL OF TEMPORARY INSTANCES OF sc_int_sigref
1544 //
1545 // This allows use to pass const references for part and bit selections
1546 // on sc_signal_int object instances.
1547 //------------------------------------------------------------------------------
1548 sc_vpool<sc_int_sigref> sc_int_sigref::m_pool(8);
1549 
1550 
1551 //------------------------------------------------------------------------------
1552 //"sc_int_part_if::default methods"
1553 //
1554 // These versions just produce errors if they are not overloaded but used.
1555 //------------------------------------------------------------------------------
1556 
1558 {
1560  return 0;
1561 }
1562 sc_dt::uint64 sc_int_part_if::read_part( int /*left*/, int /*right*/ ) const
1563 {
1565  return 0;
1566 }
1567 sc_int_sigref& sc_int_part_if::select_part( int /*left*/, int /*right*/ )
1568 {
1570  return *(sc_int_sigref*)0;
1571 }
1572 void sc_int_part_if::write_part( sc_dt::uint64 v, int /*left*/, int /*right*/ )
1573 {
1575 }
1576 
1577 
1578 //------------------------------------------------------------------------------
1579 //"sc_int_sigref::concate_set"
1580 //
1581 // These methods assign this object instance's value from the supplied
1582 // value starting at the supplied bit within that value.
1583 // src = value to use to set this object instance's value.
1584 // low_i = bit in src that is to be the low order bit of the value to set.
1585 // #### OPTIMIZE
1586 //------------------------------------------------------------------------------
1588 {
1589  *this = (low_i < 64) ? src >> low_i : src >> 63;
1590 }
1591 
1592 
1593 void sc_int_sigref::concat_set(const sc_dt::sc_signed& src, int low_i)
1594 {
1595  if ( low_i < src.length() )
1596  *this = src >> low_i;
1597  else
1598  *this = (src < 0) ? (sc_dt::uint64)-1 : 0;
1599 }
1600 
1601 
1603 {
1604  if ( low_i < src.length() )
1605  *this = (src >> low_i).to_uint64();
1606  else
1607  *this = 0;
1608 }
1609 
1610 
1612 {
1613  if ( low_i < src.length() )
1614  *this = src >> low_i;
1615  else
1616  *this = 0;
1617 }
1618 
1619 
1621 {
1622  *this = (low_i < 64) ? src >> low_i : 0;
1623 }
1624 
1625 } // namespace sc_core
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Definition: scx_signal_int.h:885
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Definition: scx_signal_int.h:911
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Definition: scx_signal_int.h:1254
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Definition: scx_signal_int.h:845
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Definition: scx_signal_int.h:1244
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Definition: scx_signal_int.h:1252
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Definition: scx_signal_int.h:1169
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Definition: miscregs_types.hh:62
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Definition: scx_signal_int.h:833
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Definition: sc_report_handler.hh:127
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Definition: sc_process_handle.hh:118
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Definition: scx_signal_int.h:1206
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Definition: scx_signal_int.h:825
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Definition: sc_signal.hh:209
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Definition: scx_signal_int.h:1201
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virtual bool event() const =0
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Definition: scx_signal_int.h:1030
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Definition: scx_signal_int.h:774
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Definition: sc_event.hh:169
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Definition: pra_constants.hh:297
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Definition: scx_signal_int.h:1017
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Definition: scx_signal_int.h:291
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Definition: scx_signal_int.h:841
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Definition: scx_signal_int.h:1083
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Definition: sc_unsigned.hh:890
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Definition: sc_int_mask.cc:57
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Definition: scx_signal_int.h:915
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Definition: scx_signal_int.h:1567
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Definition: scx_signal_int.h:1079
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Definition: sc_port.hh:147
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Definition: scx_signal_int.h:748
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Definition: scx_signal_int.h:909
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Definition: miscregs_types.hh:51
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Definition: sc_port.hh:121
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Definition: sc_int_base.hh:288
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Definition: sc_in.hh:50
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Definition: scx_signal_int.h:378

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