SystemC  Recoding Infrastructure for SystemC v0.6.3 derived from Accellera SystemC 2.3.1
Accellera SystemC proof-of-concept library
sc_fxnum.h
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18 /*****************************************************************************
19 
20  sc_fxnum.h -
21 
22  Original Author: Martin Janssen, Synopsys, Inc.
23 
24  *****************************************************************************/
25 
26 /*****************************************************************************
27 
28  MODIFICATION LOG - modifiers, enter your name, affiliation, date and
29  changes you are making here.
30 
31  Name, Affiliation, Date:
32  Description of Modification:
33 
34  *****************************************************************************/
35 
36 // $Log: sc_fxnum.h,v $
37 // Revision 1.5 2011/08/29 18:04:32 acg
38 // Philipp A. Hartmann: miscellaneous clean ups.
39 //
40 // Revision 1.4 2011/08/24 22:05:43 acg
41 // Torsten Maehne: initialization changes to remove warnings.
42 //
43 // Revision 1.3 2011/01/19 18:57:40 acg
44 // Andy Goodrich: changes for IEEE_1666_2011.
45 //
46 // Revision 1.2 2009/03/09 17:26:46 acg
47 // Andy Goodrich: removed ; from namespace { }
48 //
49 // Revision 1.1.1.1 2006/12/15 20:20:04 acg
50 // SystemC 2.3
51 //
52 // Revision 1.3 2006/01/13 18:53:58 acg
53 // Andy Goodrich: added $Log command so that CVS comments are reproduced in
54 // the source.
55 //
56 
57 #ifndef SC_FXNUM_H
58 #define SC_FXNUM_H
59 
60 
65 
66 
67 namespace sc_core {
68  class vcd_sc_fxnum_trace;
69  class vcd_sc_fxnum_fast_trace;
70  class wif_sc_fxnum_trace;
71  class wif_sc_fxnum_fast_trace;
72 }
73 
74 
75 namespace sc_dt
76 {
77 
78 // classes defined in this module
79 class sc_fxnum_bitref;
80 class sc_fxnum_fast_bitref;
81 class sc_fxnum_subref;
82 class sc_fxnum_fast_subref;
83 class sc_fxnum;
84 class sc_fxnum_fast;
85 
86 
87 // ----------------------------------------------------------------------------
88 // CLASS : sc_fxnum_bitref
89 //
90 // Proxy class for bit-selection in class sc_fxnum, behaves like sc_bit.
91 // ----------------------------------------------------------------------------
92 
94 {
95  friend class sc_fxnum;
96  friend class sc_fxnum_fast_bitref;
97 
98 
99  bool get() const;
100  void set( bool );
101 
102 
103  // constructor
104 
105  sc_fxnum_bitref( sc_fxnum&, int );
106 
107 public:
108 
109  // copy constructor
110 
112 
113 
114  // assignment operators
115 
116 #define DECL_ASN_OP_T(op,tp) \
117  sc_fxnum_bitref& operator op ( tp );
118 
119 #define DECL_ASN_OP(op) \
120  DECL_ASN_OP_T(op,const sc_fxnum_bitref&) \
121  DECL_ASN_OP_T(op,const sc_fxnum_fast_bitref&) \
122  DECL_ASN_OP_T(op,const sc_bit&) \
123  DECL_ASN_OP_T(op,bool)
124 
125  DECL_ASN_OP(=)
126 
127  DECL_ASN_OP(&=)
128  DECL_ASN_OP(|=)
129  DECL_ASN_OP(^=)
130 
131 #undef DECL_ASN_OP_T
132 #undef DECL_ASN_OP
133 
134 
135  // implicit conversion
136 
137  operator bool() const;
138 
139 
140  // print or dump content
141 
142  void print( ::std::ostream& = ::std::cout ) const;
143  void scan( ::std::istream& = ::std::cin );
144  void dump( ::std::ostream& = ::std::cout ) const;
145 
146 private:
147 
148  sc_fxnum& m_num;
149  int m_idx;
150 
151 private:
152 
153  // disabled
154  sc_fxnum_bitref();
155 };
156 
157 
158 // ----------------------------------------------------------------------------
159 // CLASS : sc_fxnum_fast_bitref
160 //
161 // Proxy class for bit-selection in class sc_fxnum_fast, behaves like sc_bit.
162 // ----------------------------------------------------------------------------
163 
165 {
166  friend class sc_fxnum_fast;
167  friend class sc_fxnum_bitref;
168 
169 
170  bool get() const;
171  void set( bool );
172 
173 
174  // constructor
175 
177 
178 public:
179 
180  // copy constructor
181 
183 
184 
185  // assignment operators
186 
187 #define DECL_ASN_OP_T(op,tp) \
188  sc_fxnum_fast_bitref& operator op ( tp );
189 
190 #define DECL_ASN_OP(op) \
191  DECL_ASN_OP_T(op,const sc_fxnum_bitref&) \
192  DECL_ASN_OP_T(op,const sc_fxnum_fast_bitref&) \
193  DECL_ASN_OP_T(op,const sc_bit&) \
194  DECL_ASN_OP_T(op,bool)
195 
196  DECL_ASN_OP(=)
197 
198  DECL_ASN_OP(&=)
199  DECL_ASN_OP(|=)
200  DECL_ASN_OP(^=)
201 
202 #undef DECL_ASN_OP_T
203 #undef DECL_ASN_OP
204 
205 
206  // implicit conversion
207 
208  operator bool() const;
209 
210 
211  // print or dump content
212 
213  void print( ::std::ostream& = ::std::cout ) const;
214  void scan( ::std::istream& = ::std::cin );
215  void dump( ::std::ostream& = ::std::cout ) const;
216 
217 private:
218 
219  sc_fxnum_fast& m_num;
220  int m_idx;
221 
222 private:
223 
224  // disabled
226 };
227 
228 
229 // ----------------------------------------------------------------------------
230 // CLASS : sc_fxnum_subref
231 //
232 // Proxy class for part-selection in class sc_fxnum,
233 // behaves like sc_bv_base.
234 // ----------------------------------------------------------------------------
235 
237 {
238  friend class sc_fxnum;
239  friend class sc_fxnum_fast_subref;
240 
241  bool get() const;
242  bool set();
243 
244 
245  // constructor
246 
247  sc_fxnum_subref( sc_fxnum&, int, int );
248 
249 public:
250 
251  // copy constructor
252 
254 
255 
256  // destructor
257 
259 
260 
261  // assignment operators
262 
263 #define DECL_ASN_OP_T(tp) \
264  sc_fxnum_subref& operator = ( tp );
265 
268  DECL_ASN_OP_T(const sc_bv_base&)
269  DECL_ASN_OP_T(const sc_lv_base&)
270  DECL_ASN_OP_T(const char*)
271  DECL_ASN_OP_T(const bool*)
272  DECL_ASN_OP_T(const sc_signed&)
273  DECL_ASN_OP_T(const sc_unsigned&)
274  DECL_ASN_OP_T(const sc_int_base&)
278  DECL_ASN_OP_T(int)
279  DECL_ASN_OP_T(unsigned int)
280  DECL_ASN_OP_T(long)
281  DECL_ASN_OP_T(unsigned long)
282  DECL_ASN_OP_T(char)
283 
284 #undef DECL_ASN_OP_T
285 
286 #define DECL_ASN_OP_T_A(op,tp) \
287  sc_fxnum_subref& operator op ## = ( tp );
288 
289 #define DECL_ASN_OP_A(op) \
290  DECL_ASN_OP_T_A(op,const sc_fxnum_subref&) \
291  DECL_ASN_OP_T_A(op,const sc_fxnum_fast_subref&) \
292  DECL_ASN_OP_T_A(op,const sc_bv_base&) \
293  DECL_ASN_OP_T_A(op,const sc_lv_base&)
294 
295  DECL_ASN_OP_A(&)
296  DECL_ASN_OP_A(|)
297  DECL_ASN_OP_A(^)
298 
299 #undef DECL_ASN_OP_T_A
300 #undef DECL_ASN_OP_A
301 
302 
303  // relational operators
304 
305 #define DECL_REL_OP_T(op,tp) \
306  friend bool operator op ( const sc_fxnum_subref&, tp ); \
307  friend bool operator op ( tp, const sc_fxnum_subref& );
308 
309 #define DECL_REL_OP(op) \
310  friend bool operator op ( const sc_fxnum_subref&, \
311  const sc_fxnum_subref& ); \
312  friend bool operator op ( const sc_fxnum_subref&, \
313  const sc_fxnum_fast_subref& ); \
314  DECL_REL_OP_T(op,const sc_bv_base&) \
315  DECL_REL_OP_T(op,const sc_lv_base&) \
316  DECL_REL_OP_T(op,const char*) \
317  DECL_REL_OP_T(op,const bool*) \
318  DECL_REL_OP_T(op,const sc_signed&) \
319  DECL_REL_OP_T(op,const sc_unsigned&) \
320  DECL_REL_OP_T(op,int) \
321  DECL_REL_OP_T(op,unsigned int) \
322  DECL_REL_OP_T(op,long) \
323  DECL_REL_OP_T(op,unsigned long)
324 
325  DECL_REL_OP(==)
326  DECL_REL_OP(!=)
327 
328 #undef DECL_REL_OP_T
329 #undef DECL_REL_OP
330 
331 
332  // reduce functions
333 
334  bool and_reduce() const;
335  bool nand_reduce() const;
336  bool or_reduce() const;
337  bool nor_reduce() const;
338  bool xor_reduce() const;
339  bool xnor_reduce() const;
340 
341 
342  // query parameter
343 
344  int length() const;
345 
346 
347  // explicit conversions
348 
349  int to_int() const;
350  unsigned int to_uint() const;
351  long to_long() const;
352  unsigned long to_ulong() const;
353  int64 to_int64() const;
354  uint64 to_uint64() const;
355 
356 #ifdef SC_DT_DEPRECATED
357  int to_signed() const;
358  unsigned int to_unsigned() const;
359 #endif
360 
361  const std::string to_string() const;
362  const std::string to_string( sc_numrep ) const;
363  const std::string to_string( sc_numrep, bool ) const;
364 
365 
366  // implicit conversion
367 
368  operator sc_bv_base() const;
369 
370 
371  // print or dump content
372 
373  void print( ::std::ostream& = ::std::cout ) const;
374  void scan( ::std::istream& = ::std::cin );
375  void dump( ::std::ostream& = ::std::cout ) const;
376 
377 private:
378 
379  sc_fxnum& m_num;
380  int m_from;
381  int m_to;
382 
383  sc_bv_base& m_bv;
384 
385 private:
386 
387  // disabled
388  sc_fxnum_subref();
389 };
390 
391 
392 // ----------------------------------------------------------------------------
393 // CLASS : sc_fxnum_fast_subref
394 //
395 // Proxy class for part-selection in class sc_fxnum_fast,
396 // behaves like sc_bv_base.
397 // ----------------------------------------------------------------------------
398 
400 {
401  friend class sc_fxnum_fast;
402  friend class sc_fxnum_subref;
403 
404  bool get() const;
405  bool set();
406 
407 
408  // constructor
409 
410  sc_fxnum_fast_subref( sc_fxnum_fast&, int, int );
411 
412 public:
413 
414  // copy constructor
415 
417 
418 
419  // destructor
420 
422 
423 
424  // assignment operators
425 
426 #define DECL_ASN_OP_T(tp) \
427  sc_fxnum_fast_subref& operator = ( tp );
428 
431  DECL_ASN_OP_T(const sc_bv_base&)
432  DECL_ASN_OP_T(const sc_lv_base&)
433  DECL_ASN_OP_T(const char*)
434  DECL_ASN_OP_T(const bool*)
435  DECL_ASN_OP_T(const sc_signed&)
436  DECL_ASN_OP_T(const sc_unsigned&)
437  DECL_ASN_OP_T(const sc_int_base&)
441  DECL_ASN_OP_T(int)
442  DECL_ASN_OP_T(unsigned int)
443  DECL_ASN_OP_T(long)
444  DECL_ASN_OP_T(unsigned long)
445  DECL_ASN_OP_T(char)
446 
447 #undef DECL_ASN_OP_T
448 
449 #define DECL_ASN_OP_T_A(op,tp) \
450  sc_fxnum_fast_subref& operator op ## = ( tp );
451 
452 #define DECL_ASN_OP_A(op) \
453  DECL_ASN_OP_T_A(op,const sc_fxnum_subref&) \
454  DECL_ASN_OP_T_A(op,const sc_fxnum_fast_subref&) \
455  DECL_ASN_OP_T_A(op,const sc_bv_base&) \
456  DECL_ASN_OP_T_A(op,const sc_lv_base&)
457 
458  DECL_ASN_OP_A(&)
459  DECL_ASN_OP_A(|)
460  DECL_ASN_OP_A(^)
461 
462 #undef DECL_ASN_OP_T_A
463 #undef DECL_ASN_OP_A
464 
465 
466  // relational operators
467 
468 #define DECL_REL_OP_T(op,tp) \
469  friend bool operator op ( const sc_fxnum_fast_subref&, tp ); \
470  friend bool operator op ( tp, const sc_fxnum_fast_subref& );
471 
472 #define DECL_REL_OP(op) \
473  friend bool operator op ( const sc_fxnum_fast_subref&, \
474  const sc_fxnum_fast_subref& ); \
475  friend bool operator op ( const sc_fxnum_fast_subref&, \
476  const sc_fxnum_subref& ); \
477  DECL_REL_OP_T(op,const sc_bv_base&) \
478  DECL_REL_OP_T(op,const sc_lv_base&) \
479  DECL_REL_OP_T(op,const char*) \
480  DECL_REL_OP_T(op,const bool*) \
481  DECL_REL_OP_T(op,const sc_signed&) \
482  DECL_REL_OP_T(op,const sc_unsigned&) \
483  DECL_REL_OP_T(op,int) \
484  DECL_REL_OP_T(op,unsigned int) \
485  DECL_REL_OP_T(op,long) \
486  DECL_REL_OP_T(op,unsigned long)
487 
488  DECL_REL_OP(==)
489  DECL_REL_OP(!=)
490 
491 #undef DECL_REL_OP_T
492 #undef DECL_REL_OP
493 
494 
495  // reduce functions
496 
497  bool and_reduce() const;
498  bool nand_reduce() const;
499  bool or_reduce() const;
500  bool nor_reduce() const;
501  bool xor_reduce() const;
502  bool xnor_reduce() const;
503 
504 
505  // query parameter
506 
507  int length() const;
508 
509 
510  // explicit conversions
511 
512  int to_int() const;
513  unsigned int to_uint() const;
514  long to_long() const;
515  unsigned long to_ulong() const;
516  int64 to_int64() const;
517  uint64 to_uint64() const;
518 
519 #ifdef SC_DT_DEPRECATED
520  int to_signed() const;
521  unsigned int to_unsigned() const;
522 #endif
523 
524  const std::string to_string() const;
525  const std::string to_string( sc_numrep ) const;
526  const std::string to_string( sc_numrep, bool ) const;
527 
528 
529  // implicit conversion
530 
531  operator sc_bv_base() const;
532 
533 
534  // print or dump content
535 
536  void print( ::std::ostream& = ::std::cout ) const;
537  void scan( ::std::istream& = ::std::cin );
538  void dump( ::std::ostream& = ::std::cout ) const;
539 
540 private:
541 
542  sc_fxnum_fast& m_num;
543  int m_from;
544  int m_to;
545 
546  sc_bv_base& m_bv;
547 
548 private:
549 
550  // disabled
551  sc_fxnum_fast_subref();
552 };
553 
554 
555 // ----------------------------------------------------------------------------
556 // CLASS : sc_fxnum
557 //
558 // Base class for the fixed-point types; arbitrary precision.
559 // ----------------------------------------------------------------------------
560 
561 class sc_fxnum
562 {
563  friend class sc_fxval;
564 
565  friend class sc_fxnum_bitref;
566  friend class sc_fxnum_subref;
567  friend class sc_fxnum_fast_bitref;
568  friend class sc_fxnum_fast_subref;
569 
572 
573 protected:
574 
575  sc_fxnum_observer* observer() const;
576 
577 
578  void cast();
579 
580 
581  // constructors
582 
583  sc_fxnum( const sc_fxtype_params&,
584  sc_enc,
585  const sc_fxcast_switch&,
587 
588 #define DECL_CTOR_T(tp) \
589  sc_fxnum( tp, \
590  const sc_fxtype_params&, \
591  sc_enc, \
592  const sc_fxcast_switch&, \
593  sc_fxnum_observer* );
594 
595  DECL_CTOR_T(int)
596  DECL_CTOR_T(unsigned int)
597  DECL_CTOR_T(long)
598  DECL_CTOR_T(unsigned long)
599  DECL_CTOR_T(float)
600  DECL_CTOR_T(double)
601  DECL_CTOR_T(const char*)
602  DECL_CTOR_T(const sc_fxval&)
603  DECL_CTOR_T(const sc_fxval_fast&)
604  DECL_CTOR_T(const sc_fxnum&)
605  DECL_CTOR_T(const sc_fxnum_fast&)
606 #ifndef SC_FX_EXCLUDE_OTHER
609  DECL_CTOR_T(const sc_int_base&)
610  DECL_CTOR_T(const sc_uint_base&)
611  DECL_CTOR_T(const sc_signed&)
612  DECL_CTOR_T(const sc_unsigned&)
613 #endif
614 
615 #undef DECL_CTOR_T
616 
617  ~sc_fxnum();
618 
619 
620  // internal use only;
621  const scfx_rep* get_rep() const;
622 
623 public:
624 
625  // unary operators
626 
627  const sc_fxval operator - () const;
628  const sc_fxval operator + () const;
629 
630 
631  // unary functions
632 
633  friend void neg( sc_fxval&, const sc_fxnum& );
634  friend void neg( sc_fxnum&, const sc_fxnum& );
635 
636 
637  // binary operators
638 
639 #define DECL_BIN_OP_T(op,tp) \
640  friend const sc_fxval operator op ( const sc_fxnum&, tp ); \
641  friend const sc_fxval operator op ( tp, const sc_fxnum& );
642 
643 #ifndef SC_FX_EXCLUDE_OTHER
644 #define DECL_BIN_OP_OTHER(op) \
645  DECL_BIN_OP_T(op,int64) \
646  DECL_BIN_OP_T(op,uint64) \
647  DECL_BIN_OP_T(op,const sc_int_base&) \
648  DECL_BIN_OP_T(op,const sc_uint_base&) \
649  DECL_BIN_OP_T(op,const sc_signed&) \
650  DECL_BIN_OP_T(op,const sc_unsigned&)
651 #else
652 #define DECL_BIN_OP_OTHER(op)
653 #endif
654 
655 #define DECL_BIN_OP(op,dummy) \
656  friend const sc_fxval operator op ( const sc_fxnum&, const sc_fxnum& ); \
657  DECL_BIN_OP_T(op,int) \
658  DECL_BIN_OP_T(op,unsigned int) \
659  DECL_BIN_OP_T(op,long) \
660  DECL_BIN_OP_T(op,unsigned long) \
661  DECL_BIN_OP_T(op,float) \
662  DECL_BIN_OP_T(op,double) \
663  DECL_BIN_OP_T(op,const char*) \
664  DECL_BIN_OP_T(op,const sc_fxval&) \
665  DECL_BIN_OP_T(op,const sc_fxval_fast&) \
666  DECL_BIN_OP_T(op,const sc_fxnum_fast&) \
667  DECL_BIN_OP_OTHER(op)
668 
669  DECL_BIN_OP(*,mult)
670  DECL_BIN_OP(+,add)
671  DECL_BIN_OP(-,sub)
672 // don't use macros
673 // DECL_BIN_OP(/,div)
674  friend const sc_fxval operator / ( const sc_fxnum&, const sc_fxnum& );
675  DECL_BIN_OP_T(/,int)
676  DECL_BIN_OP_T(/,unsigned int)
677  DECL_BIN_OP_T(/,long)
678  DECL_BIN_OP_T(/,unsigned long)
679  DECL_BIN_OP_T(/,float)
680  DECL_BIN_OP_T(/,double)
681  DECL_BIN_OP_T(/,const char*)
682  DECL_BIN_OP_T(/,const sc_fxval&)
683  DECL_BIN_OP_T(/,const sc_fxval_fast&)
684  DECL_BIN_OP_T(/,const sc_fxnum_fast&)
685 // DECL_BIN_OP_OTHER(op)
686 #ifndef SC_FX_EXCLUDE_OTHER
688  DECL_BIN_OP_T(/,uint64)
689  DECL_BIN_OP_T(/,const sc_int_base&)
690  DECL_BIN_OP_T(/,const sc_uint_base&)
691  DECL_BIN_OP_T(/,const sc_signed&)
692  DECL_BIN_OP_T(/,const sc_unsigned&)
693 #endif
694 
695 #undef DECL_BIN_OP_T
696 #undef DECL_BIN_OP_OTHER
697 #undef DECL_BIN_OP
698 
699  friend const sc_fxval operator << ( const sc_fxnum&, int );
700  friend const sc_fxval operator >> ( const sc_fxnum&, int );
701 
702 
703  // binary functions
704 
705 #define DECL_BIN_FNC_T(fnc,tp) \
706  friend void fnc ( sc_fxval&, const sc_fxnum&, tp ); \
707  friend void fnc ( sc_fxval&, tp, const sc_fxnum& ); \
708  friend void fnc ( sc_fxnum&, const sc_fxnum&, tp ); \
709  friend void fnc ( sc_fxnum&, tp, const sc_fxnum& );
710 
711 #ifndef SC_FX_EXCLUDE_OTHER
712 #define DECL_BIN_FNC_OTHER(fnc) \
713  DECL_BIN_FNC_T(fnc,int64) \
714  DECL_BIN_FNC_T(fnc,uint64) \
715  DECL_BIN_FNC_T(fnc,const sc_int_base&) \
716  DECL_BIN_FNC_T(fnc,const sc_uint_base&) \
717  DECL_BIN_FNC_T(fnc,const sc_signed&) \
718  DECL_BIN_FNC_T(fnc,const sc_unsigned&)
719 #else
720 #define DECL_BIN_FNC_OTHER(fnc)
721 #endif
722 
723 #define DECL_BIN_FNC(fnc) \
724  friend void fnc ( sc_fxval&, const sc_fxnum&, const sc_fxnum& ); \
725  friend void fnc ( sc_fxnum&, const sc_fxnum&, const sc_fxnum& ); \
726  DECL_BIN_FNC_T(fnc,int) \
727  DECL_BIN_FNC_T(fnc,unsigned int) \
728  DECL_BIN_FNC_T(fnc,long) \
729  DECL_BIN_FNC_T(fnc,unsigned long) \
730  DECL_BIN_FNC_T(fnc,float) \
731  DECL_BIN_FNC_T(fnc,double) \
732  DECL_BIN_FNC_T(fnc,const char*) \
733  DECL_BIN_FNC_T(fnc,const sc_fxval&) \
734  DECL_BIN_FNC_T(fnc,const sc_fxval_fast&) \
735  DECL_BIN_FNC_T(fnc,const sc_fxnum_fast&) \
736  DECL_BIN_FNC_OTHER(fnc)
737 
738  DECL_BIN_FNC(mult)
740  DECL_BIN_FNC(add)
741  DECL_BIN_FNC(sub)
742 
743 #undef DECL_BIN_FNC_T
744 #undef DECL_BIN_FNC_OTHER
745 #undef DECL_BIN_FNC
746 
747  friend void lshift( sc_fxval&, const sc_fxnum&, int );
748  friend void rshift( sc_fxval&, const sc_fxnum&, int );
749  friend void lshift( sc_fxnum&, const sc_fxnum&, int );
750  friend void rshift( sc_fxnum&, const sc_fxnum&, int );
751 
752 
753  // relational (including equality) operators
754 
755 #define DECL_REL_OP_T(op,tp) \
756  friend bool operator op ( const sc_fxnum&, tp ); \
757  friend bool operator op ( tp, const sc_fxnum& );
758 
759 #ifndef SC_FX_EXCLUDE_OTHER
760 #define DECL_REL_OP_OTHER(op) \
761  DECL_REL_OP_T(op,int64) \
762  DECL_REL_OP_T(op,uint64) \
763  DECL_REL_OP_T(op,const sc_int_base&) \
764  DECL_REL_OP_T(op,const sc_uint_base&) \
765  DECL_REL_OP_T(op,const sc_signed&) \
766  DECL_REL_OP_T(op,const sc_unsigned&)
767 #else
768 #define DECL_REL_OP_OTHER(op)
769 #endif
770 
771 #define DECL_REL_OP(op) \
772  friend bool operator op ( const sc_fxnum&, const sc_fxnum& ); \
773  DECL_REL_OP_T(op,int) \
774  DECL_REL_OP_T(op,unsigned int) \
775  DECL_REL_OP_T(op,long) \
776  DECL_REL_OP_T(op,unsigned long) \
777  DECL_REL_OP_T(op,float) \
778  DECL_REL_OP_T(op,double) \
779  DECL_REL_OP_T(op,const char*) \
780  DECL_REL_OP_T(op,const sc_fxval&) \
781  DECL_REL_OP_T(op,const sc_fxval_fast&) \
782  DECL_REL_OP_T(op,const sc_fxnum_fast&) \
783  DECL_REL_OP_OTHER(op)
784 
785  DECL_REL_OP(<)
786  DECL_REL_OP(<=)
787  DECL_REL_OP(>)
788  DECL_REL_OP(>=)
789  DECL_REL_OP(==)
790  DECL_REL_OP(!=)
791 
792 #undef DECL_REL_OP_T
793 #undef DECL_REL_OP_OTHER
794 #undef DECL_REL_OP
795 
796 
797  // assignment operators
798 
799 #define DECL_ASN_OP_T(op,tp) \
800  sc_fxnum& operator op( tp );
801 
802 #ifndef SC_FX_EXCLUDE_OTHER
803 #define DECL_ASN_OP_OTHER(op) \
804  DECL_ASN_OP_T(op,int64) \
805  DECL_ASN_OP_T(op,uint64) \
806  DECL_ASN_OP_T(op,const sc_int_base&) \
807  DECL_ASN_OP_T(op,const sc_uint_base&) \
808  DECL_ASN_OP_T(op,const sc_signed&) \
809  DECL_ASN_OP_T(op,const sc_unsigned&)
810 #else
811 #define DECL_ASN_OP_OTHER(op)
812 #endif
813 
814 #define DECL_ASN_OP(op) \
815  DECL_ASN_OP_T(op,int) \
816  DECL_ASN_OP_T(op,unsigned int) \
817  DECL_ASN_OP_T(op,long) \
818  DECL_ASN_OP_T(op,unsigned long) \
819  DECL_ASN_OP_T(op,float) \
820  DECL_ASN_OP_T(op,double) \
821  DECL_ASN_OP_T(op,const char*) \
822  DECL_ASN_OP_T(op,const sc_fxval&) \
823  DECL_ASN_OP_T(op,const sc_fxval_fast&) \
824  DECL_ASN_OP_T(op,const sc_fxnum&) \
825  DECL_ASN_OP_T(op,const sc_fxnum_fast&) \
826  DECL_ASN_OP_OTHER(op)
827 
828  DECL_ASN_OP(=)
829 
830  DECL_ASN_OP(*=)
831  DECL_ASN_OP(/=)
832  DECL_ASN_OP(+=)
833  DECL_ASN_OP(-=)
834 
835  DECL_ASN_OP_T(<<=,int)
836  DECL_ASN_OP_T(>>=,int)
837 
838 #undef DECL_ASN_OP_T
839 #undef DECL_ASN_OP_OTHER
840 #undef DECL_ASN_OP
841 
842 
843  // auto-increment and auto-decrement
844 
845  const sc_fxval operator ++ ( int );
846  const sc_fxval operator -- ( int );
847 
848  sc_fxnum& operator ++ ();
849  sc_fxnum& operator -- ();
850 
851 
852  // bit selection
853 
854  const sc_fxnum_bitref operator [] ( int ) const;
856 
857  const sc_fxnum_bitref bit( int ) const;
858  sc_fxnum_bitref bit( int );
859 
860 
861  // part selection
862 
863  const sc_fxnum_subref operator () ( int, int ) const;
864  sc_fxnum_subref operator () ( int, int );
865 
866  const sc_fxnum_subref range( int, int ) const;
867  sc_fxnum_subref range( int, int );
868 
869 
870  const sc_fxnum_subref operator () () const;
872 
873  const sc_fxnum_subref range() const;
875 
876 
877  // implicit conversion
878 
879  operator double() const; // necessary evil!
880 
881 
882  // explicit conversion to primitive types
883 
884  short to_short() const;
885  unsigned short to_ushort() const;
886  int to_int() const;
887  unsigned int to_uint() const;
888  long to_long() const;
889  unsigned long to_ulong() const;
890  int64 to_int64() const;
891  uint64 to_uint64() const;
892  float to_float() const;
893  double to_double() const;
894 
895 
896  // explicit conversion to character string
897 
898  const std::string to_string() const;
899  const std::string to_string( sc_numrep ) const;
900  const std::string to_string( sc_numrep, bool ) const;
901  const std::string to_string( sc_fmt ) const;
902  const std::string to_string( sc_numrep, sc_fmt ) const;
903  const std::string to_string( sc_numrep, bool, sc_fmt ) const;
904 
905  const std::string to_dec() const;
906  const std::string to_bin() const;
907  const std::string to_oct() const;
908  const std::string to_hex() const;
909 
910 
911  // query value
912 
913  bool is_neg() const;
914  bool is_zero() const;
915 
916  // internal use only;
917  bool is_normal() const;
918 
919  bool quantization_flag() const;
920  bool overflow_flag() const;
921 
922  const sc_fxval value() const;
923 
924 
925  // query parameters
926 
927  int wl() const;
928  int iwl() const;
929  sc_q_mode q_mode() const;
930  sc_o_mode o_mode() const;
931  int n_bits() const;
932 
933  const sc_fxtype_params& type_params() const;
934 
935  const sc_fxcast_switch& cast_switch() const;
936 
937 
938  // print or dump content
939 
940  void print( ::std::ostream& = ::std::cout ) const;
941  void scan( ::std::istream& = ::std::cin );
942  void dump( ::std::ostream& = ::std::cout ) const;
943 
944 
945  // internal use only;
946  void observer_read() const;
947 
948 
949  // internal use only;
950  bool get_bit( int ) const;
951 
952 protected:
953 
954  bool set_bit( int, bool );
955 
956 
957  bool get_slice( int, int, sc_bv_base& ) const;
958  bool set_slice( int, int, const sc_bv_base& );
959 
960 
962  void unlock_observer( sc_fxnum_observer* ) const;
963 
964 private:
965 
966  scfx_rep* m_rep;
967 
968  scfx_params m_params;
969  bool m_q_flag;
970  bool m_o_flag;
971 
972  mutable sc_fxnum_observer* m_observer;
973 
974 private:
975 
976  // disabled
977  sc_fxnum();
978  sc_fxnum( const sc_fxnum& );
979 };
980 
981 
982 // ----------------------------------------------------------------------------
983 // CLASS : sc_fxnum_fast
984 //
985 // Base class for the fixed-point types; limited precision.
986 // ----------------------------------------------------------------------------
987 
989 {
990  friend class sc_fxval_fast;
991 
992  friend class sc_fxnum_bitref;
993  friend class sc_fxnum_subref;
994  friend class sc_fxnum_fast_bitref;
995  friend class sc_fxnum_fast_subref;
996 
999 
1000 protected:
1001 
1003 
1004 
1005  void cast();
1006 
1007 
1008  // constructors
1009 
1011  sc_enc,
1012  const sc_fxcast_switch&,
1014 
1015 #define DECL_CTOR_T(tp) \
1016  sc_fxnum_fast( tp, \
1017  const sc_fxtype_params&, \
1018  sc_enc, \
1019  const sc_fxcast_switch&, \
1020  sc_fxnum_fast_observer* );
1021 
1022  DECL_CTOR_T(int)
1023  DECL_CTOR_T(unsigned int)
1024  DECL_CTOR_T(long)
1025  DECL_CTOR_T(unsigned long)
1026  DECL_CTOR_T(float)
1027  DECL_CTOR_T(double)
1028  DECL_CTOR_T(const char*)
1029  DECL_CTOR_T(const sc_fxval&)
1030  DECL_CTOR_T(const sc_fxval_fast&)
1031  DECL_CTOR_T(const sc_fxnum&)
1032  DECL_CTOR_T(const sc_fxnum_fast&)
1033 #ifndef SC_FX_EXCLUDE_OTHER
1036  DECL_CTOR_T(const sc_int_base&)
1037  DECL_CTOR_T(const sc_uint_base&)
1038  DECL_CTOR_T(const sc_signed&)
1039  DECL_CTOR_T(const sc_unsigned&)
1040 #endif
1041 
1042 #undef DECL_CTOR_T
1043 
1044  ~sc_fxnum_fast();
1045 
1046 
1047  // internal use only;
1048  double get_val() const;
1049 
1050 public:
1051 
1052  // unary operators
1053 
1054  const sc_fxval_fast operator - () const;
1055  const sc_fxval_fast operator + () const;
1056 
1057 
1058  // unary functions
1059 
1060  friend void neg( sc_fxval_fast&, const sc_fxnum_fast& );
1061  friend void neg( sc_fxnum_fast&, const sc_fxnum_fast& );
1062 
1063 
1064  // binary operators
1065 
1066 #define DECL_BIN_OP_T(op,tp) \
1067  friend const sc_fxval_fast operator op ( const sc_fxnum_fast&, tp ); \
1068  friend const sc_fxval_fast operator op ( tp, const sc_fxnum_fast& );
1069 
1070 #ifndef SC_FX_EXCLUDE_OTHER
1071 #define DECL_BIN_OP_OTHER(op) \
1072  DECL_BIN_OP_T(op,int64) \
1073  DECL_BIN_OP_T(op,uint64) \
1074  DECL_BIN_OP_T(op,const sc_int_base&) \
1075  DECL_BIN_OP_T(op,const sc_uint_base&) \
1076  DECL_BIN_OP_T(op,const sc_signed&) \
1077  DECL_BIN_OP_T(op,const sc_unsigned&)
1078 #else
1079 #define DECL_BIN_OP_OTHER(op)
1080 #endif
1081 
1082 #define DECL_BIN_OP(op,dummy) \
1083  friend const sc_fxval_fast operator op ( const sc_fxnum_fast&, \
1084  const sc_fxnum_fast& ); \
1085  DECL_BIN_OP_T(op,int) \
1086  DECL_BIN_OP_T(op,unsigned int) \
1087  DECL_BIN_OP_T(op,long) \
1088  DECL_BIN_OP_T(op,unsigned long) \
1089  DECL_BIN_OP_T(op,float) \
1090  DECL_BIN_OP_T(op,double) \
1091  DECL_BIN_OP_T(op,const char*) \
1092  DECL_BIN_OP_T(op,const sc_fxval_fast&) \
1093  DECL_BIN_OP_OTHER(op)
1094 
1095  DECL_BIN_OP(*,mult)
1096  DECL_BIN_OP(+,add)
1097  DECL_BIN_OP(-,sub)
1098 // DECL_BIN_OP(/,div)
1099  friend const sc_fxval_fast operator / ( const sc_fxnum_fast&,
1100  const sc_fxnum_fast& );
1101  DECL_BIN_OP_T(/,int)
1102  DECL_BIN_OP_T(/,unsigned int)
1103  DECL_BIN_OP_T(/,long)
1104  DECL_BIN_OP_T(/,unsigned long)
1105  DECL_BIN_OP_T(/,float)
1106  DECL_BIN_OP_T(/,double)
1107  DECL_BIN_OP_T(/,const char*)
1108  DECL_BIN_OP_T(/,const sc_fxval_fast&)
1109 // DECL_BIN_OP_OTHER(op)
1110 #ifndef SC_FX_EXCLUDE_OTHER
1111  DECL_BIN_OP_T(/,int64) \
1113  DECL_BIN_OP_T(/,const sc_int_base&) \
1114  DECL_BIN_OP_T(/,const sc_uint_base&) \
1115  DECL_BIN_OP_T(/,const sc_signed&) \
1116  DECL_BIN_OP_T(/,const sc_unsigned&)
1117 #endif
1118 
1119 #undef DECL_BIN_OP_T
1120 #undef DECL_BIN_OP_OTHER
1121 #undef DECL_BIN_OP
1122 
1123  friend const sc_fxval_fast operator << ( const sc_fxnum_fast&, int );
1124  friend const sc_fxval_fast operator >> ( const sc_fxnum_fast&, int );
1125 
1126 
1127  // binary functions
1128 
1129 #define DECL_BIN_FNC_T(fnc,tp) \
1130  friend void fnc ( sc_fxval_fast&, const sc_fxnum_fast&, tp ); \
1131  friend void fnc ( sc_fxval_fast&, tp, const sc_fxnum_fast& ); \
1132  friend void fnc ( sc_fxnum_fast&, const sc_fxnum_fast&, tp ); \
1133  friend void fnc ( sc_fxnum_fast&, tp, const sc_fxnum_fast& );
1134 
1135 #ifndef SC_FX_EXCLUDE_OTHER
1136 #define DECL_BIN_FNC_OTHER(fnc) \
1137  DECL_BIN_FNC_T(fnc,int64) \
1138  DECL_BIN_FNC_T(fnc,uint64) \
1139  DECL_BIN_FNC_T(fnc,const sc_int_base&) \
1140  DECL_BIN_FNC_T(fnc,const sc_uint_base&) \
1141  DECL_BIN_FNC_T(fnc,const sc_signed&) \
1142  DECL_BIN_FNC_T(fnc,const sc_unsigned&)
1143 #else
1144 #define DECL_BIN_FNC_OTHER(fnc)
1145 #endif
1146 
1147 #define DECL_BIN_FNC(fnc) \
1148  friend void fnc ( sc_fxval_fast&, const sc_fxnum_fast&, \
1149  const sc_fxnum_fast& ); \
1150  friend void fnc ( sc_fxnum_fast&, const sc_fxnum_fast&, \
1151  const sc_fxnum_fast& ); \
1152  DECL_BIN_FNC_T(fnc,int) \
1153  DECL_BIN_FNC_T(fnc,unsigned int) \
1154  DECL_BIN_FNC_T(fnc,long) \
1155  DECL_BIN_FNC_T(fnc,unsigned long) \
1156  DECL_BIN_FNC_T(fnc,float) \
1157  DECL_BIN_FNC_T(fnc,double) \
1158  DECL_BIN_FNC_T(fnc,const char*) \
1159  DECL_BIN_FNC_T(fnc,const sc_fxval&) \
1160  DECL_BIN_FNC_T(fnc,const sc_fxval_fast&) \
1161  DECL_BIN_FNC_T(fnc,const sc_fxnum&) \
1162  DECL_BIN_FNC_OTHER(fnc)
1163 
1164  DECL_BIN_FNC(mult)
1165  DECL_BIN_FNC(div)
1166  DECL_BIN_FNC(add)
1167  DECL_BIN_FNC(sub)
1168 
1169 #undef DECL_BIN_FNC_T
1170 #undef DECL_BIN_FNC_OTHER
1171 #undef DECL_BIN_FNC
1172 
1173  friend void lshift( sc_fxval_fast&, const sc_fxnum_fast&, int );
1174  friend void rshift( sc_fxval_fast&, const sc_fxnum_fast&, int );
1175  friend void lshift( sc_fxnum_fast&, const sc_fxnum_fast&, int );
1176  friend void rshift( sc_fxnum_fast&, const sc_fxnum_fast&, int );
1177 
1178 
1179  // relational (including equality) operators
1180 
1181 #define DECL_REL_OP_T(op,tp) \
1182  friend bool operator op ( const sc_fxnum_fast&, tp ); \
1183  friend bool operator op ( tp, const sc_fxnum_fast& );
1184 
1185 #ifndef SC_FX_EXCLUDE_OTHER
1186 #define DECL_REL_OP_OTHER(op) \
1187  DECL_REL_OP_T(op,int64) \
1188  DECL_REL_OP_T(op,uint64) \
1189  DECL_REL_OP_T(op,const sc_int_base&) \
1190  DECL_REL_OP_T(op,const sc_uint_base&) \
1191  DECL_REL_OP_T(op,const sc_signed&) \
1192  DECL_REL_OP_T(op,const sc_unsigned&)
1193 #else
1194 #define DECL_REL_OP_OTHER(op)
1195 #endif
1196 
1197 #define DECL_REL_OP(op) \
1198  friend bool operator op ( const sc_fxnum_fast&, const sc_fxnum_fast& ); \
1199  DECL_REL_OP_T(op,int) \
1200  DECL_REL_OP_T(op,unsigned int) \
1201  DECL_REL_OP_T(op,long) \
1202  DECL_REL_OP_T(op,unsigned long) \
1203  DECL_REL_OP_T(op,float) \
1204  DECL_REL_OP_T(op,double) \
1205  DECL_REL_OP_T(op,const char*) \
1206  DECL_REL_OP_T(op,const sc_fxval_fast&) \
1207  DECL_REL_OP_OTHER(op)
1208 
1209  DECL_REL_OP(<)
1210  DECL_REL_OP(<=)
1211  DECL_REL_OP(>)
1212  DECL_REL_OP(>=)
1213  DECL_REL_OP(==)
1214  DECL_REL_OP(!=)
1215 
1216 #undef DECL_REL_OP_T
1217 #undef DECL_REL_OP_OTHER
1218 #undef DECL_REL_OP
1219 
1220 
1221  // assignment operators
1222 
1223 #define DECL_ASN_OP_T(op,tp) \
1224  sc_fxnum_fast& operator op( tp );
1225 
1226 #ifndef SC_FX_EXCLUDE_OTHER
1227 #define DECL_ASN_OP_OTHER(op) \
1228  DECL_ASN_OP_T(op,int64) \
1229  DECL_ASN_OP_T(op,uint64) \
1230  DECL_ASN_OP_T(op,const sc_int_base&) \
1231  DECL_ASN_OP_T(op,const sc_uint_base&) \
1232  DECL_ASN_OP_T(op,const sc_signed&) \
1233  DECL_ASN_OP_T(op,const sc_unsigned&)
1234 #else
1235 #define DECL_ASN_OP_OTHER(op)
1236 #endif
1237 
1238 #define DECL_ASN_OP(op) \
1239  DECL_ASN_OP_T(op,int) \
1240  DECL_ASN_OP_T(op,unsigned int) \
1241  DECL_ASN_OP_T(op,long) \
1242  DECL_ASN_OP_T(op,unsigned long) \
1243  DECL_ASN_OP_T(op,float) \
1244  DECL_ASN_OP_T(op,double) \
1245  DECL_ASN_OP_T(op,const char*) \
1246  DECL_ASN_OP_T(op,const sc_fxval&) \
1247  DECL_ASN_OP_T(op,const sc_fxval_fast&) \
1248  DECL_ASN_OP_T(op,const sc_fxnum&) \
1249  DECL_ASN_OP_T(op,const sc_fxnum_fast&) \
1250  DECL_ASN_OP_OTHER(op)
1251 
1252  DECL_ASN_OP(=)
1253 
1254  DECL_ASN_OP(*=)
1255  DECL_ASN_OP(/=)
1256  DECL_ASN_OP(+=)
1257  DECL_ASN_OP(-=)
1258 
1259  DECL_ASN_OP_T(<<=,int)
1260  DECL_ASN_OP_T(>>=,int)
1261 
1262 #undef DECL_ASN_OP_T
1263 #undef DECL_ASN_OP_OTHER
1264 #undef DECL_ASN_OP
1265 
1266 
1267  // auto-increment and auto-decrement
1268 
1269  const sc_fxval_fast operator ++ ( int );
1270  const sc_fxval_fast operator -- ( int );
1271 
1272  sc_fxnum_fast& operator ++ ();
1273  sc_fxnum_fast& operator -- ();
1274 
1275 
1276  // bit selection
1277 
1278  const sc_fxnum_fast_bitref operator [] ( int ) const;
1280 
1281  const sc_fxnum_fast_bitref bit( int ) const;
1282  sc_fxnum_fast_bitref bit( int );
1283 
1284 
1285  // part selection
1286 
1287  const sc_fxnum_fast_subref operator () ( int, int ) const;
1288  sc_fxnum_fast_subref operator () ( int, int );
1289 
1290  const sc_fxnum_fast_subref range( int, int ) const;
1291  sc_fxnum_fast_subref range( int, int );
1292 
1293 
1294  const sc_fxnum_fast_subref operator () () const;
1296 
1297  const sc_fxnum_fast_subref range() const;
1299 
1300 
1301  // implicit conversion
1302 
1303  operator double() const; // necessary evil!
1304 
1305 
1306  // explicit conversion to primitive types
1307 
1308  short to_short() const;
1309  unsigned short to_ushort() const;
1310  int to_int() const;
1311  unsigned int to_uint() const;
1312  long to_long() const;
1313  unsigned long to_ulong() const;
1314  int64 to_int64() const;
1315  uint64 to_uint64() const;
1316  float to_float() const;
1317  double to_double() const;
1318 
1319 
1320  // explicit conversion to character string
1321 
1322  const std::string to_string() const;
1323  const std::string to_string( sc_numrep ) const;
1324  const std::string to_string( sc_numrep, bool ) const;
1325  const std::string to_string( sc_fmt ) const;
1326  const std::string to_string( sc_numrep, sc_fmt ) const;
1327  const std::string to_string( sc_numrep, bool, sc_fmt ) const;
1328 
1329  const std::string to_dec() const;
1330  const std::string to_bin() const;
1331  const std::string to_oct() const;
1332  const std::string to_hex() const;
1333 
1334 
1335  // query value
1336 
1337  bool is_neg() const;
1338  bool is_zero() const;
1339 
1340  // internal use only;
1341  bool is_normal() const;
1342 
1343  bool quantization_flag() const;
1344  bool overflow_flag() const;
1345 
1346  const sc_fxval_fast value() const;
1347 
1348 
1349  // query parameters
1350 
1351  int wl() const;
1352  int iwl() const;
1353  sc_q_mode q_mode() const;
1354  sc_o_mode o_mode() const;
1355  int n_bits() const;
1356 
1357  const sc_fxtype_params& type_params() const;
1358 
1359  const sc_fxcast_switch& cast_switch() const;
1360 
1361 
1362  // print or dump content
1363 
1364  void print( ::std::ostream& = ::std::cout ) const;
1365  void scan( ::std::istream& = ::std::cin );
1366  void dump( ::std::ostream& = ::std::cout ) const;
1367 
1368 
1369  // internal use only;
1370  void observer_read() const;
1371 
1372 
1373  // internal use only;
1374  bool get_bit( int ) const;
1375 
1376 protected:
1377 
1378  bool set_bit( int, bool );
1379 
1380 
1381  bool get_slice( int, int, sc_bv_base& ) const;
1382  bool set_slice( int, int, const sc_bv_base& );
1383 
1384 
1385  sc_fxnum_fast_observer* lock_observer() const;
1386  void unlock_observer( sc_fxnum_fast_observer* ) const;
1387 
1388 private:
1389 
1390  double m_val;
1391 
1392  scfx_params m_params;
1393  bool m_q_flag;
1394  bool m_o_flag;
1395 
1396  mutable sc_fxnum_fast_observer* m_observer;
1397 
1398 private:
1399 
1400  // disabled
1401  sc_fxnum_fast();
1402  sc_fxnum_fast( const sc_fxnum_fast& );
1403 };
1404 
1405 
1406 // IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
1407 
1408 // ----------------------------------------------------------------------------
1409 // CLASS : sc_fxnum_bitref
1410 //
1411 // Proxy class for bit-selection in class sc_fxnum, behaves like sc_bit.
1412 // ----------------------------------------------------------------------------
1413 
1414 // constructor
1415 
1416 inline
1417 sc_fxnum_bitref::sc_fxnum_bitref( sc_fxnum& num_, int idx_ )
1418  : m_num( num_ ), m_idx( idx_ )
1419 {}
1420 
1421 
1422 // copy constructor
1423 
1424 inline
1425 sc_fxnum_bitref::sc_fxnum_bitref( const sc_fxnum_bitref& a )
1426  : m_num( a.m_num ), m_idx( a.m_idx )
1427 {}
1428 
1429 
1430 // assignment operators
1431 
1432 inline
1434 sc_fxnum_bitref::operator = ( const sc_fxnum_bitref& a )
1435 {
1436  if( &a != this )
1437  {
1438  SC_FXNUM_OBSERVER_READ_( a.m_num )
1439  set( a.get() );
1440  SC_FXNUM_OBSERVER_WRITE_( m_num )
1441  }
1442  return *this;
1443 }
1444 
1445 inline
1447 sc_fxnum_bitref::operator = ( const sc_fxnum_fast_bitref& a )
1448 {
1449  SC_FXNUM_FAST_OBSERVER_READ_( a.m_num )
1450  set( a.get() );
1451  SC_FXNUM_OBSERVER_WRITE_( m_num )
1452  return *this;
1453 }
1454 
1455 inline
1457 sc_fxnum_bitref::operator = ( const sc_bit& a )
1458 {
1459  set( static_cast<bool>( a ) );
1460  SC_FXNUM_OBSERVER_WRITE_( m_num )
1461  return *this;
1462 }
1463 
1464 inline
1466 sc_fxnum_bitref::operator = ( bool a )
1467 {
1468  set( a );
1469  SC_FXNUM_OBSERVER_WRITE_( m_num )
1470  return *this;
1471 }
1472 
1473 
1474 inline
1476 sc_fxnum_bitref::operator &= ( const sc_fxnum_bitref& b )
1477 {
1478  SC_FXNUM_OBSERVER_READ_( m_num )
1479  SC_FXNUM_OBSERVER_READ_( b.m_num )
1480  set( get() && b.get() );
1481  SC_FXNUM_OBSERVER_WRITE_( m_num )
1482  return *this;
1483 }
1484 
1485 inline
1487 sc_fxnum_bitref::operator &= ( const sc_fxnum_fast_bitref& b )
1488 {
1489  SC_FXNUM_OBSERVER_READ_( m_num )
1490  SC_FXNUM_FAST_OBSERVER_READ_( b.m_num )
1491  set( get() && b.get() );
1492  SC_FXNUM_OBSERVER_WRITE_( m_num )
1493  return *this;
1494 }
1495 
1496 inline
1498 sc_fxnum_bitref::operator &= ( const sc_bit& b )
1499 {
1500  SC_FXNUM_OBSERVER_READ_( m_num )
1501  set( get() && static_cast<bool>( b ) );
1502  SC_FXNUM_OBSERVER_WRITE_( m_num )
1503  return *this;
1504 }
1505 
1506 inline
1508 sc_fxnum_bitref::operator &= ( bool b )
1509 {
1510  SC_FXNUM_OBSERVER_READ_( m_num )
1511  set( get() && b );
1512  SC_FXNUM_OBSERVER_WRITE_( m_num )
1513  return *this;
1514 }
1515 
1516 
1517 inline
1519 sc_fxnum_bitref::operator |= ( const sc_fxnum_bitref& b )
1520 {
1521  SC_FXNUM_OBSERVER_READ_( m_num )
1522  SC_FXNUM_OBSERVER_READ_( b.m_num )
1523  set( get() || b.get() );
1524  SC_FXNUM_OBSERVER_WRITE_( m_num )
1525  return *this;
1526 }
1527 
1528 inline
1530 sc_fxnum_bitref::operator |= ( const sc_fxnum_fast_bitref& b )
1531 {
1532  SC_FXNUM_OBSERVER_READ_( m_num )
1533  SC_FXNUM_FAST_OBSERVER_READ_( b.m_num )
1534  set( get() || b.get() );
1535  SC_FXNUM_OBSERVER_WRITE_( m_num )
1536  return *this;
1537 }
1538 
1539 inline
1541 sc_fxnum_bitref::operator |= ( const sc_bit& b )
1542 {
1543  SC_FXNUM_OBSERVER_READ_( m_num )
1544  set( get() || static_cast<bool>( b ) );
1545  SC_FXNUM_OBSERVER_WRITE_( m_num )
1546  return *this;
1547 }
1548 
1549 inline
1551 sc_fxnum_bitref::operator |= ( bool b )
1552 {
1553  SC_FXNUM_OBSERVER_READ_( m_num )
1554  set( get() || b );
1555  SC_FXNUM_OBSERVER_WRITE_( m_num )
1556  return *this;
1557 }
1558 
1559 
1560 inline
1562 sc_fxnum_bitref::operator ^= ( const sc_fxnum_bitref& b )
1563 {
1564  SC_FXNUM_OBSERVER_READ_( m_num )
1565  SC_FXNUM_OBSERVER_READ_( b.m_num )
1566  set( get() != b.get() );
1567  SC_FXNUM_OBSERVER_WRITE_( m_num )
1568  return *this;
1569 }
1570 
1571 inline
1573 sc_fxnum_bitref::operator ^= ( const sc_fxnum_fast_bitref& b )
1574 {
1575  SC_FXNUM_OBSERVER_READ_( m_num )
1576  SC_FXNUM_FAST_OBSERVER_READ_( b.m_num )
1577  set( get() != b.get() );
1578  SC_FXNUM_OBSERVER_WRITE_( m_num )
1579  return *this;
1580 }
1581 
1582 inline
1584 sc_fxnum_bitref::operator ^= ( const sc_bit& b )
1585 {
1586  SC_FXNUM_OBSERVER_READ_( m_num )
1587  set( get() != static_cast<bool>( b ) );
1588  SC_FXNUM_OBSERVER_WRITE_( m_num )
1589  return *this;
1590 }
1591 
1592 inline
1594 sc_fxnum_bitref::operator ^= ( bool b )
1595 {
1596  SC_FXNUM_OBSERVER_READ_( m_num )
1597  set( get() != b );
1598  SC_FXNUM_OBSERVER_WRITE_( m_num )
1599  return *this;
1600 }
1601 
1602 
1603 // implicit conversion
1604 
1605 inline
1606 sc_fxnum_bitref::operator bool() const
1607 {
1608  SC_FXNUM_OBSERVER_READ_( m_num )
1609  return get();
1610 }
1611 
1612 
1613 inline
1614 ::std::ostream&
1615 operator << ( ::std::ostream& os, const sc_fxnum_bitref& a )
1616 {
1617  a.print( os );
1618  return os;
1619 }
1620 
1621 inline
1622 ::std::istream&
1623 operator >> ( ::std::istream& is, sc_fxnum_bitref& a )
1624 {
1625  a.scan( is );
1626  return is;
1627 }
1628 
1629 
1630 // ----------------------------------------------------------------------------
1631 // CLASS : sc_fxnum_fast_bitref
1632 //
1633 // Proxy class for bit-selection in class sc_fxnum_fast, behaves like sc_bit.
1634 // ----------------------------------------------------------------------------
1635 
1636 // constructor
1637 
1638 inline
1639 sc_fxnum_fast_bitref::sc_fxnum_fast_bitref( sc_fxnum_fast& num_, int idx_ )
1640  : m_num( num_ ), m_idx( idx_ )
1641 {}
1642 
1643 
1644 // copy constructor
1645 
1646 inline
1647 sc_fxnum_fast_bitref::sc_fxnum_fast_bitref( const sc_fxnum_fast_bitref& a )
1648  : m_num( a.m_num ), m_idx( a.m_idx )
1649 {}
1650 
1651 
1652 // assignment operators
1653 
1654 inline
1656 sc_fxnum_fast_bitref::operator = ( const sc_fxnum_bitref& a )
1657 {
1658  SC_FXNUM_OBSERVER_READ_( a.m_num )
1659  set( a.get() );
1661  return *this;
1662 }
1663 
1664 inline
1666 sc_fxnum_fast_bitref::operator = ( const sc_fxnum_fast_bitref& a )
1667 {
1668  if( &a != this )
1669  {
1670  SC_FXNUM_FAST_OBSERVER_READ_( a.m_num )
1671  set( a.get() );
1673  }
1674  return *this;
1675 }
1676 
1677 inline
1679 sc_fxnum_fast_bitref::operator = ( const sc_bit& a )
1680 {
1681  set( static_cast<bool>( a ) );
1683  return *this;
1684 }
1685 
1686 inline
1688 sc_fxnum_fast_bitref::operator = ( bool a )
1689 {
1690  set( a );
1692  return *this;
1693 }
1694 
1695 
1696 inline
1698 sc_fxnum_fast_bitref::operator &= ( const sc_fxnum_bitref& b )
1699 {
1701  SC_FXNUM_OBSERVER_READ_( b.m_num )
1702  set( get() && b.get() );
1704  return *this;
1705 }
1706 
1707 inline
1709 sc_fxnum_fast_bitref::operator &= ( const sc_fxnum_fast_bitref& b )
1710 {
1712  SC_FXNUM_FAST_OBSERVER_READ_( b.m_num )
1713  set( get() && b.get() );
1715  return *this;
1716 }
1717 
1718 inline
1720 sc_fxnum_fast_bitref::operator &= ( const sc_bit& b )
1721 {
1723  set( get() && static_cast<bool>( b ) );
1725  return *this;
1726 }
1727 
1728 inline
1730 sc_fxnum_fast_bitref::operator &= ( bool b )
1731 {
1733  set( get() && b );
1735  return *this;
1736 }
1737 
1738 
1739 inline
1741 sc_fxnum_fast_bitref::operator |= ( const sc_fxnum_bitref& b )
1742 {
1744  SC_FXNUM_OBSERVER_READ_( b.m_num )
1745  set( get() || b.get() );
1747  return *this;
1748 }
1749 
1750 inline
1752 sc_fxnum_fast_bitref::operator |= ( const sc_fxnum_fast_bitref& b )
1753 {
1755  SC_FXNUM_FAST_OBSERVER_READ_( b.m_num )
1756  set( get() || b.get() );
1758  return *this;
1759 }
1760 
1761 inline
1763 sc_fxnum_fast_bitref::operator |= ( const sc_bit& b )
1764 {
1766  set( get() || static_cast<bool>( b ) );
1768  return *this;
1769 }
1770 
1771 inline
1773 sc_fxnum_fast_bitref::operator |= ( bool b )
1774 {
1776  set( get() || b );
1778  return *this;
1779 }
1780 
1781 
1782 inline
1784 sc_fxnum_fast_bitref::operator ^= ( const sc_fxnum_bitref& b )
1785 {
1787  SC_FXNUM_OBSERVER_READ_( b.m_num )
1788  set( get() != b.get() );
1790  return *this;
1791 }
1792 
1793 inline
1795 sc_fxnum_fast_bitref::operator ^= ( const sc_fxnum_fast_bitref& b )
1796 {
1798  SC_FXNUM_FAST_OBSERVER_READ_( b.m_num )
1799  set( get() != b.get() );
1801  return *this;
1802 }
1803 
1804 inline
1806 sc_fxnum_fast_bitref::operator ^= ( const sc_bit& b )
1807 {
1809  set( get() != static_cast<bool>( b ) );
1811  return *this;
1812 }
1813 
1814 inline
1816 sc_fxnum_fast_bitref::operator ^= ( bool b )
1817 {
1819  set( get() != b );
1821  return *this;
1822 }
1823 
1824 
1825 // implicit conversion
1826 
1827 inline
1828 sc_fxnum_fast_bitref::operator bool() const
1829 {
1831  return get();
1832 }
1833 
1834 
1835 inline
1836 ::std::ostream&
1837 operator << ( ::std::ostream& os, const sc_fxnum_fast_bitref& a )
1838 {
1839  a.print( os );
1840  return os;
1841 }
1842 
1843 inline
1844 ::std::istream&
1845 operator >> ( ::std::istream& is, sc_fxnum_fast_bitref& a )
1846 {
1847  a.scan( is );
1848  return is;
1849 }
1850 
1851 
1852 // ----------------------------------------------------------------------------
1853 // CLASS : sc_fxnum_subref
1854 //
1855 // Proxy class for part-selection in class sc_fxnum,
1856 // behaves like sc_bv_base.
1857 // ----------------------------------------------------------------------------
1858 
1859 // constructor
1860 
1861 inline
1862 sc_fxnum_subref::sc_fxnum_subref( sc_fxnum& num_, int from_, int to_ )
1863  : m_num( num_ ), m_from( from_ ), m_to( to_ ),
1864  m_bv( *new sc_bv_base( sc_max( m_from, m_to ) -
1865  sc_min( m_from, m_to ) + 1 ) )
1866 {}
1867 
1868 
1869 // copy constructor
1870 
1871 inline
1872 sc_fxnum_subref::sc_fxnum_subref( const sc_fxnum_subref& a )
1873  : m_num( a.m_num ), m_from( a.m_from ), m_to( a.m_to ),
1874  m_bv( *new sc_bv_base( a.m_bv ) )
1875 {}
1876 
1877 
1878 // destructor
1879 
1880 inline
1882 {
1883  delete &m_bv;
1884 }
1885 
1886 
1887 // assignment operators
1888 
1889 inline
1891 sc_fxnum_subref::operator = ( const sc_fxnum_subref& a )
1892 {
1893  if( &a != this )
1894  {
1895  m_bv = static_cast<sc_bv_base>( a );
1896  set();
1897  SC_FXNUM_OBSERVER_WRITE_( m_num )
1898  }
1899  return *this;
1900 }
1901 
1902 inline
1903 sc_fxnum_subref&
1904 sc_fxnum_subref::operator = ( const sc_fxnum_fast_subref& a )
1905 {
1906  m_bv = static_cast<sc_bv_base>( a );
1907  set();
1908  SC_FXNUM_OBSERVER_WRITE_( m_num )
1909  return *this;
1910 }
1911 
1912 #define DEFN_ASN_OP_T(tp) \
1913 inline \
1914 sc_fxnum_subref& \
1915 sc_fxnum_subref::operator = ( tp a ) \
1916 { \
1917  m_bv = a; \
1918  set(); \
1919  SC_FXNUM_OBSERVER_WRITE_( m_num ) \
1920  return *this; \
1921 }
1922 
1923 DEFN_ASN_OP_T(const sc_bv_base&)
1924 DEFN_ASN_OP_T(const sc_lv_base&)
1925 DEFN_ASN_OP_T(const char*)
1926 DEFN_ASN_OP_T(const bool*)
1927 DEFN_ASN_OP_T(const sc_signed&)
1928 DEFN_ASN_OP_T(const sc_unsigned&)
1929 DEFN_ASN_OP_T(const sc_int_base&)
1930 DEFN_ASN_OP_T(const sc_uint_base&)
1933 DEFN_ASN_OP_T(int)
1934 DEFN_ASN_OP_T(unsigned int)
1935 DEFN_ASN_OP_T(long)
1936 DEFN_ASN_OP_T(unsigned long)
1937 DEFN_ASN_OP_T(char)
1938 
1939 #undef DEFN_ASN_OP_T
1940 
1941 
1942 #define DEFN_ASN_OP_T(op,tp) \
1943 inline \
1944 sc_fxnum_subref& \
1945 sc_fxnum_subref::operator op ## = ( tp a ) \
1946 { \
1947  SC_FXNUM_OBSERVER_READ_( m_num ) \
1948  get(); \
1949  m_bv = m_bv op a; \
1950  set(); \
1951  SC_FXNUM_OBSERVER_WRITE_( m_num ) \
1952  return *this; \
1953 }
1954 
1955 #define DEFN_ASN_OP(op) \
1956 inline \
1957 sc_fxnum_subref& \
1958 sc_fxnum_subref::operator op ## = ( const sc_fxnum_subref& a ) \
1959 { \
1960  SC_FXNUM_OBSERVER_READ_( m_num ) \
1961  get(); \
1962  m_bv = m_bv op static_cast<sc_bv_base>( a ); \
1963  set(); \
1964  SC_FXNUM_OBSERVER_WRITE_( m_num ) \
1965  return *this; \
1966 } \
1967  \
1968 inline \
1969 sc_fxnum_subref& \
1970 sc_fxnum_subref::operator op ## = ( const sc_fxnum_fast_subref& a ) \
1971 { \
1972  SC_FXNUM_OBSERVER_READ_( m_num ) \
1973  get(); \
1974  m_bv = m_bv op static_cast<sc_bv_base>( a ); \
1975  set(); \
1976  SC_FXNUM_OBSERVER_WRITE_( m_num ) \
1977  return *this; \
1978 } \
1979  \
1980 DEFN_ASN_OP_T(op,const sc_bv_base&) \
1981 DEFN_ASN_OP_T(op,const sc_lv_base&)
1982 
1983 DEFN_ASN_OP(&)
1984 DEFN_ASN_OP(|)
1985 DEFN_ASN_OP(^)
1986 
1987 #undef DEFN_ASN_OP_T
1988 #undef DEFN_ASN_OP
1989 
1990 
1991 // relational operators
1992 
1993 #define DEFN_REL_OP_T(op,tp) \
1994 inline \
1995 bool \
1996 operator op ( const sc_fxnum_subref& a, tp b ) \
1997 { \
1998  return ( static_cast<sc_bv_base>( a ) op b ); \
1999 } \
2000  \
2001 inline \
2002 bool \
2003 operator op ( tp a, const sc_fxnum_subref& b ) \
2004 { \
2005  return ( static_cast<sc_bv_base>( b ) op a ); \
2006 }
2007 
2008 #define DEFN_REL_OP(op) \
2009 inline \
2010 bool \
2011 operator op ( const sc_fxnum_subref& a, const sc_fxnum_subref& b ) \
2012 { \
2013  return ( static_cast<sc_bv_base>( a ) op static_cast<sc_bv_base>( b ) ); \
2014 } \
2015  \
2016 inline \
2017 bool \
2018 operator op ( const sc_fxnum_subref& a, const sc_fxnum_fast_subref& b ) \
2019 { \
2020  return ( static_cast<sc_bv_base>( a ) op static_cast<sc_bv_base>( b ) ); \
2021 } \
2022  \
2023 DEFN_REL_OP_T(op,const sc_bv_base&) \
2024 DEFN_REL_OP_T(op,const sc_lv_base&) \
2025 DEFN_REL_OP_T(op,const char*) \
2026 DEFN_REL_OP_T(op,const bool*) \
2027 DEFN_REL_OP_T(op,const sc_signed&) \
2028 DEFN_REL_OP_T(op,const sc_unsigned&) \
2029 DEFN_REL_OP_T(op,int) \
2030 DEFN_REL_OP_T(op,unsigned int) \
2031 DEFN_REL_OP_T(op,long) \
2032 DEFN_REL_OP_T(op,unsigned long)
2033 
2034 DEFN_REL_OP(==)
2035 DEFN_REL_OP(!=)
2036 
2037 #undef DEFN_REL_OP_T
2038 #undef DEFN_REL_OP
2039 
2040 
2041 // reduce functions
2042 
2043 #define DEFN_RED_FNC(fnc) \
2044 inline \
2045 bool \
2046 sc_fxnum_subref::fnc() const \
2047 { \
2048  SC_FXNUM_OBSERVER_READ_( m_num ) \
2049  get(); \
2050  return static_cast<bool>( m_bv.fnc() ); \
2051 }
2052 
2059 
2060 #undef DEFN_RED_FNC
2061 
2062 
2063 // query parameter
2064 
2065 inline
2066 int
2068 {
2069  return m_bv.length();
2070 }
2071 
2072 
2073 // explicit conversions
2074 
2075 inline
2076 int
2078 {
2079  SC_FXNUM_OBSERVER_READ_( m_num )
2080  get();
2081  return m_bv.to_int();
2082 }
2083 
2084 inline
2085 int64
2087 {
2088  SC_FXNUM_OBSERVER_READ_( m_num )
2089  get();
2090  return m_bv.to_int64();
2091 }
2092 
2093 inline
2094 unsigned int
2096 {
2097  SC_FXNUM_OBSERVER_READ_( m_num )
2098  get();
2099  return m_bv.to_uint();
2100 }
2101 
2102 inline
2103 uint64
2105 {
2106  SC_FXNUM_OBSERVER_READ_( m_num )
2107  get();
2108  return m_bv.to_uint64();
2109 }
2110 
2111 inline
2112 long
2114 {
2115  SC_FXNUM_OBSERVER_READ_( m_num )
2116  get();
2117  return m_bv.to_long();
2118 }
2119 
2120 inline
2121 unsigned long
2123 {
2124  SC_FXNUM_OBSERVER_READ_( m_num )
2125  get();
2126  return m_bv.to_ulong();
2127 }
2128 
2129 
2130 #ifdef SC_DT_DEPRECATED
2131 
2132 inline
2133 int
2134 sc_fxnum_subref::to_signed() const
2135 {
2136  return to_int();
2137 }
2138 
2139 inline
2140 unsigned int
2141 sc_fxnum_subref::to_unsigned() const
2142 {
2143  return to_uint();
2144 }
2145 
2146 #endif
2147 
2148 
2149 inline
2150 const std::string
2152 {
2153  get();
2154  return m_bv.to_string();
2155 }
2156 
2157 inline
2158 const std::string
2160 {
2161  get();
2162  return m_bv.to_string( numrep );
2163 }
2164 
2165 inline
2166 const std::string
2167 sc_fxnum_subref::to_string( sc_numrep numrep, bool w_prefix ) const
2168 {
2169  get();
2170  return m_bv.to_string( numrep, w_prefix );
2171 }
2172 
2173 
2174 // implicit conversion
2175 
2176 inline
2177 sc_fxnum_subref::operator sc_bv_base () const
2178 {
2179  SC_FXNUM_OBSERVER_READ_( m_num )
2180  get();
2181  return m_bv;
2182 }
2183 
2184 
2185 inline
2186 ::std::ostream&
2187 operator << ( ::std::ostream& os, const sc_fxnum_subref& a )
2188 {
2189  a.print( os );
2190  return os;
2191 }
2192 
2193 inline
2194 ::std::istream&
2195 operator >> ( ::std::istream& is, sc_fxnum_subref& a )
2196 {
2197  a.scan( is );
2198  return is;
2199 }
2200 
2201 
2202 // ----------------------------------------------------------------------------
2203 // CLASS : sc_fxnum_fast_subref
2204 //
2205 // Proxy class for part-selection in class sc_fxnum_fast,
2206 // behaves like sc_bv_base.
2207 // ----------------------------------------------------------------------------
2208 
2209 // constructor
2210 
2211 inline
2212 sc_fxnum_fast_subref::sc_fxnum_fast_subref( sc_fxnum_fast& num_,
2213  int from_, int to_ )
2214  : m_num( num_ ), m_from( from_ ), m_to( to_ ),
2215  m_bv( *new sc_bv_base( sc_max( m_from, m_to ) -
2216  sc_min( m_from, m_to ) + 1 ) )
2217 {}
2218 
2219 
2220 // copy constructor
2221 
2222 inline
2223 sc_fxnum_fast_subref::sc_fxnum_fast_subref( const sc_fxnum_fast_subref& a )
2224  : m_num( a.m_num ), m_from( a.m_from ), m_to( a.m_to ),
2225  m_bv( *new sc_bv_base( a.m_bv ) )
2226 {}
2227 
2228 
2229 // destructor
2230 
2231 inline
2233 {
2234  delete &m_bv;
2235 }
2236 
2237 
2238 // assignment operators
2239 
2240 inline
2242 sc_fxnum_fast_subref::operator = ( const sc_fxnum_subref& a )
2243 {
2244  m_bv = static_cast<sc_bv_base>( a );
2245  set();
2247  return *this;
2248 }
2249 
2250 inline
2252 sc_fxnum_fast_subref::operator = ( const sc_fxnum_fast_subref& a )
2253 {
2254  if( &a != this )
2255  {
2256  m_bv = static_cast<sc_bv_base>( a );
2257  set();
2259  }
2260  return *this;
2261 }
2262 
2263 #define DEFN_ASN_OP_T(tp) \
2264 inline \
2265 sc_fxnum_fast_subref& \
2266 sc_fxnum_fast_subref::operator = ( tp a ) \
2267 { \
2268  m_bv = a; \
2269  set(); \
2270  SC_FXNUM_FAST_OBSERVER_WRITE_( m_num ) \
2271  return *this; \
2272 }
2273 
2274 DEFN_ASN_OP_T(const sc_bv_base&)
2275 DEFN_ASN_OP_T(const sc_lv_base&)
2276 DEFN_ASN_OP_T(const char*)
2277 DEFN_ASN_OP_T(const bool*)
2278 DEFN_ASN_OP_T(const sc_signed&)
2279 DEFN_ASN_OP_T(const sc_unsigned&)
2280 DEFN_ASN_OP_T(const sc_int_base&)
2281 DEFN_ASN_OP_T(const sc_uint_base&)
2284 DEFN_ASN_OP_T(int)
2285 DEFN_ASN_OP_T(unsigned int)
2286 DEFN_ASN_OP_T(long)
2287 DEFN_ASN_OP_T(unsigned long)
2288 DEFN_ASN_OP_T(char)
2289 
2290 #undef DEFN_ASN_OP_T
2291 
2292 
2293 #define DEFN_ASN_OP_T(op,tp) \
2294 inline \
2295 sc_fxnum_fast_subref& \
2296 sc_fxnum_fast_subref::operator op ## = ( tp a ) \
2297 { \
2298  SC_FXNUM_FAST_OBSERVER_READ_( m_num ) \
2299  get(); \
2300  m_bv = m_bv op a; \
2301  set(); \
2302  SC_FXNUM_FAST_OBSERVER_WRITE_( m_num ) \
2303  return *this; \
2304 }
2305 
2306 #define DEFN_ASN_OP(op) \
2307 inline \
2308 sc_fxnum_fast_subref& \
2309 sc_fxnum_fast_subref::operator op ## = ( const sc_fxnum_subref& a ) \
2310 { \
2311  SC_FXNUM_FAST_OBSERVER_READ_( m_num ) \
2312  get(); \
2313  m_bv = m_bv op static_cast<sc_bv_base>( a ); \
2314  set(); \
2315  SC_FXNUM_FAST_OBSERVER_WRITE_( m_num ) \
2316  return *this; \
2317 } \
2318  \
2319 inline \
2320 sc_fxnum_fast_subref& \
2321 sc_fxnum_fast_subref::operator op ## = ( const sc_fxnum_fast_subref& a ) \
2322 { \
2323  SC_FXNUM_FAST_OBSERVER_READ_( m_num ) \
2324  get(); \
2325  m_bv = m_bv op static_cast<sc_bv_base>( a ); \
2326  set(); \
2327  SC_FXNUM_FAST_OBSERVER_WRITE_( m_num ) \
2328  return *this; \
2329 } \
2330  \
2331 DEFN_ASN_OP_T(op,const sc_bv_base&) \
2332 DEFN_ASN_OP_T(op,const sc_lv_base&)
2333 
2334 DEFN_ASN_OP(&)
2335 DEFN_ASN_OP(|)
2336 DEFN_ASN_OP(^)
2337 
2338 #undef DEFN_ASN_OP_T
2339 #undef DEFN_ASN_OP
2340 
2341 
2342 // relational operators
2343 
2344 #define DEFN_REL_OP_T(op,tp) \
2345 inline \
2346 bool \
2347 operator op ( const sc_fxnum_fast_subref& a, tp b ) \
2348 { \
2349  return ( static_cast<sc_bv_base>( a ) op b ); \
2350 } \
2351  \
2352 inline \
2353 bool \
2354 operator op ( tp a, const sc_fxnum_fast_subref& b ) \
2355 { \
2356  return ( static_cast<sc_bv_base>( b ) op a ); \
2357 }
2358 
2359 #define DEFN_REL_OP(op) \
2360 inline \
2361 bool \
2362 operator op ( const sc_fxnum_fast_subref& a, const sc_fxnum_fast_subref& b ) \
2363 { \
2364  return ( static_cast<sc_bv_base>( a ) op static_cast<sc_bv_base>( b ) ); \
2365 } \
2366  \
2367 inline \
2368 bool \
2369 operator op ( const sc_fxnum_fast_subref& a, const sc_fxnum_subref& b ) \
2370 { \
2371  return ( static_cast<sc_bv_base>( a ) op static_cast<sc_bv_base>( b ) ); \
2372 } \
2373  \
2374 DEFN_REL_OP_T(op,const sc_bv_base&) \
2375 DEFN_REL_OP_T(op,const sc_lv_base&) \
2376 DEFN_REL_OP_T(op,const char*) \
2377 DEFN_REL_OP_T(op,const bool*) \
2378 DEFN_REL_OP_T(op,const sc_signed&) \
2379 DEFN_REL_OP_T(op,const sc_unsigned&) \
2380 DEFN_REL_OP_T(op,int) \
2381 DEFN_REL_OP_T(op,unsigned int) \
2382 DEFN_REL_OP_T(op,long) \
2383 DEFN_REL_OP_T(op,unsigned long)
2384 
2385 DEFN_REL_OP(==)
2386 DEFN_REL_OP(!=)
2387 
2388 #undef DEFN_REL_OP_T
2389 #undef DEFN_REL_OP
2390 
2391 
2392 // reduce functions
2393 
2394 #define DEFN_RED_FNC(fnc) \
2395 inline \
2396 bool \
2397 sc_fxnum_fast_subref::fnc() const \
2398 { \
2399  SC_FXNUM_FAST_OBSERVER_READ_( m_num ) \
2400  get(); \
2401  return static_cast<bool>( m_bv.fnc() ); \
2402 }
2403 
2410 
2411 #undef DEFN_RED_FNC
2412 
2413 
2414 // query parameter
2415 
2416 inline
2417 int
2419 {
2420  return m_bv.length();
2421 }
2422 
2423 
2424 // explicit conversions
2425 
2426 inline
2427 int
2429 {
2431  get();
2432  return m_bv.to_int();
2433 }
2434 
2435 inline
2436 int64
2438 {
2440  get();
2441  return m_bv.to_int64();
2442 }
2443 
2444 inline
2445 unsigned int
2447 {
2449  get();
2450  return m_bv.to_uint();
2451 }
2452 
2453 inline
2454 uint64
2456 {
2458  get();
2459  return m_bv.to_uint64();
2460 }
2461 
2462 inline
2463 long
2465 {
2467  get();
2468  return m_bv.to_long();
2469 }
2470 
2471 inline
2472 unsigned long
2474 {
2476  get();
2477  return m_bv.to_ulong();
2478 }
2479 
2480 
2481 #ifdef SC_DT_DEPRECATED
2482 
2483 inline
2484 int
2485 sc_fxnum_fast_subref::to_signed() const
2486 {
2487  return to_int();
2488 }
2489 
2490 inline
2491 unsigned int
2492 sc_fxnum_fast_subref::to_unsigned() const
2493 {
2494  return to_uint();
2495 }
2496 
2497 #endif
2498 
2499 
2500 inline
2501 const std::string
2503 {
2504  get();
2505  return m_bv.to_string();
2506 }
2507 
2508 inline
2509 const std::string
2511 {
2512  get();
2513  return m_bv.to_string( numrep );
2514 }
2515 
2516 inline
2517 const std::string
2518 sc_fxnum_fast_subref::to_string( sc_numrep numrep, bool w_prefix ) const
2519 {
2520  get();
2521  return m_bv.to_string( numrep, w_prefix );
2522 }
2523 
2524 
2525 // implicit conversion
2526 
2527 inline
2528 sc_fxnum_fast_subref::operator sc_bv_base () const
2529 {
2531  get();
2532  return m_bv;
2533 }
2534 
2535 
2536 inline
2537 ::std::ostream&
2538 operator << ( ::std::ostream& os, const sc_fxnum_fast_subref& a )
2539 {
2540  a.print( os );
2541  return os;
2542 }
2543 
2544 inline
2545 ::std::istream&
2546 operator >> ( ::std::istream& is, sc_fxnum_fast_subref& a )
2547 {
2548  a.scan( is );
2549  return is;
2550 }
2551 
2552 
2553 // ----------------------------------------------------------------------------
2554 // CLASS : sc_fxnum
2555 //
2556 // Base class for the fixed-point types; arbitrary precision.
2557 // ----------------------------------------------------------------------------
2558 
2559 inline
2560 sc_fxnum_observer*
2562 {
2563  return m_observer;
2564 }
2565 
2566 
2567 inline
2568 void
2570 {
2571  SC_ERROR_IF_( ! m_rep->is_normal(), sc_core::SC_ID_INVALID_FX_VALUE_ );
2572 
2573  if( m_params.cast_switch() == SC_ON )
2574  m_rep->cast( m_params, m_q_flag, m_o_flag );
2575 }
2576 
2577 
2578 // constructors
2579 
2580 inline
2581 sc_fxnum::sc_fxnum( const sc_fxtype_params& type_params_,
2582  sc_enc enc_,
2583  const sc_fxcast_switch& cast_sw,
2584  sc_fxnum_observer* observer_ )
2585 : m_rep( new scfx_rep ),
2586  m_params( type_params_, enc_, cast_sw ),
2587  m_q_flag( false ),
2588  m_o_flag( false ),
2589  m_observer( observer_ )
2590 {
2593 }
2594 
2595 #define DEFN_CTOR_T(tp,arg) \
2596 inline \
2597 sc_fxnum::sc_fxnum( tp a, \
2598  const sc_fxtype_params& type_params_, \
2599  sc_enc enc_, \
2600  const sc_fxcast_switch& cast_sw, \
2601  sc_fxnum_observer* observer_ ) \
2602 : m_rep( new scfx_rep( arg ) ), \
2603  m_params( type_params_, enc_, cast_sw ), \
2604  m_q_flag( false ), \
2605  m_o_flag( false ), \
2606  m_observer( observer_ ) \
2607 { \
2608  SC_FXNUM_OBSERVER_DEFAULT_ \
2609  cast(); \
2610  SC_FXNUM_OBSERVER_CONSTRUCT_( *this ) \
2611  SC_FXNUM_OBSERVER_WRITE_( *this ) \
2612 }
2613 
2614 #define DEFN_CTOR_T_A(tp) DEFN_CTOR_T(tp,a)
2615 #define DEFN_CTOR_T_B(tp) DEFN_CTOR_T(tp,*a.m_rep)
2616 #define DEFN_CTOR_T_C(tp) DEFN_CTOR_T(tp,a.to_double())
2617 #define DEFN_CTOR_T_D(tp) DEFN_CTOR_T(tp,a.value())
2618 
2619 DEFN_CTOR_T_A(int)
2620 DEFN_CTOR_T_A(unsigned int)
2621 DEFN_CTOR_T_A(long)
2622 DEFN_CTOR_T_A(unsigned long)
2623 DEFN_CTOR_T_A(float)
2624 DEFN_CTOR_T_A(double)
2625 DEFN_CTOR_T_A(const char*)
2626 DEFN_CTOR_T_B(const sc_fxval&)
2627 DEFN_CTOR_T_C(const sc_fxval_fast&)
2628 DEFN_CTOR_T_B(const sc_fxnum&)
2629 DEFN_CTOR_T_C(const sc_fxnum_fast&)
2630 #ifndef SC_FX_EXCLUDE_OTHER
2633 DEFN_CTOR_T_D(const sc_int_base&)
2634 DEFN_CTOR_T_D(const sc_uint_base&)
2635 DEFN_CTOR_T_A(const sc_signed&)
2636 DEFN_CTOR_T_A(const sc_unsigned&)
2637 #endif
2638 
2639 #undef DEFN_CTOR_T
2640 #undef DEFN_CTOR_T_A
2641 #undef DEFN_CTOR_T_B
2642 #undef DEFN_CTOR_T_C
2643 #undef DEFN_CTOR_T_D
2644 
2645 
2646 inline
2648 {
2650  delete m_rep;
2651 }
2652 
2653 
2654 // internal use only;
2655 inline
2656 const scfx_rep*
2658 {
2659  SC_FXNUM_OBSERVER_READ_( *this )
2660  return m_rep;
2661 }
2662 
2663 
2664 // unary operators
2665 
2666 inline
2667 const sc_fxval
2669 {
2670  SC_FXNUM_OBSERVER_READ_( *this )
2671  return sc_fxval( sc_dt::neg_scfx_rep( *m_rep ) );
2672 }
2673 
2674 inline
2675 const sc_fxval
2677 {
2678  SC_FXNUM_OBSERVER_READ_( *this )
2679  return sc_fxval( new scfx_rep( *m_rep ) );
2680 }
2681 
2682 
2683 // unary functions
2684 
2685 inline
2686 void
2687 neg( sc_fxval& c, const sc_fxnum& a )
2688 {
2690  c.set_rep( sc_dt::neg_scfx_rep( *a.m_rep ) );
2691 }
2692 
2693 inline
2694 void
2695 neg( sc_fxnum& c, const sc_fxnum& a )
2696 {
2698  delete c.m_rep;
2699  c.m_rep = sc_dt::neg_scfx_rep( *a.m_rep );
2700  c.cast();
2702 }
2703 
2704 
2705 // binary operators
2706 
2707 #define DEFN_BIN_OP_T(op,fnc,tp) \
2708 inline \
2709 const sc_fxval \
2710 operator op ( const sc_fxnum& a, tp b ) \
2711 { \
2712  SC_FXNUM_OBSERVER_READ_( a ) \
2713  sc_fxval tmp( b ); \
2714  return sc_fxval( sc_dt::fnc ## _scfx_rep( *a.m_rep, *tmp.get_rep() ) ); \
2715 } \
2716  \
2717 inline \
2718 const sc_fxval \
2719 operator op ( tp a, const sc_fxnum& b ) \
2720 { \
2721  SC_FXNUM_OBSERVER_READ_( b ) \
2722  sc_fxval tmp( a ); \
2723  return sc_fxval( sc_dt::fnc ## _scfx_rep( *tmp.get_rep(), *b.m_rep ) ); \
2724 }
2725 
2726 #ifndef SC_FX_EXCLUDE_OTHER
2727 #define DEFN_BIN_OP_OTHER(op,fnc) \
2728 DEFN_BIN_OP_T(op,fnc,int64) \
2729 DEFN_BIN_OP_T(op,fnc,uint64) \
2730 DEFN_BIN_OP_T(op,fnc,const sc_int_base&) \
2731 DEFN_BIN_OP_T(op,fnc,const sc_uint_base&) \
2732 DEFN_BIN_OP_T(op,fnc,const sc_signed&) \
2733 DEFN_BIN_OP_T(op,fnc,const sc_unsigned&)
2734 #else
2735 #define DEFN_BIN_OP_OTHER(op,fnc)
2736 #endif
2737 
2738 #define DEFN_BIN_OP(op,fnc) \
2739 inline \
2740 const sc_fxval \
2741 operator op ( const sc_fxnum& a, const sc_fxnum& b ) \
2742 { \
2743  SC_FXNUM_OBSERVER_READ_( a ) \
2744  SC_FXNUM_OBSERVER_READ_( b ) \
2745  return sc_fxval( sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.m_rep ) ); \
2746 } \
2747  \
2748 inline \
2749 const sc_fxval \
2750 operator op ( const sc_fxnum& a, const sc_fxval& b ) \
2751 { \
2752  SC_FXNUM_OBSERVER_READ_( a ) \
2753  return sc_fxval( sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.get_rep() ) ); \
2754 } \
2755  \
2756 inline \
2757 const sc_fxval \
2758 operator op ( const sc_fxval& a, const sc_fxnum& b ) \
2759 { \
2760  SC_FXNUM_OBSERVER_READ_( b ) \
2761  return sc_fxval( sc_dt::fnc ## _scfx_rep( *a.get_rep(), *b.m_rep ) ); \
2762 } \
2763  \
2764 DEFN_BIN_OP_T(op,fnc,int) \
2765 DEFN_BIN_OP_T(op,fnc,unsigned int) \
2766 DEFN_BIN_OP_T(op,fnc,long) \
2767 DEFN_BIN_OP_T(op,fnc,unsigned long) \
2768 DEFN_BIN_OP_T(op,fnc,float) \
2769 DEFN_BIN_OP_T(op,fnc,double) \
2770 DEFN_BIN_OP_T(op,fnc,const char*) \
2771 DEFN_BIN_OP_T(op,fnc,const sc_fxval_fast&) \
2772 DEFN_BIN_OP_T(op,fnc,const sc_fxnum_fast&) \
2773 DEFN_BIN_OP_OTHER(op,fnc)
2774 
2775 DEFN_BIN_OP(*,mult)
2776 DEFN_BIN_OP(+,add)
2777 DEFN_BIN_OP(-,sub)
2778 // don't use macros
2779 //DEFN_BIN_OP(/,div)
2780 inline
2781 const sc_fxval
2782 operator / ( const sc_fxnum& a, const sc_fxnum& b )
2783 {
2786  return sc_fxval( sc_dt::div_scfx_rep( *a.m_rep, *b.m_rep ) );
2787 }
2788 
2789 inline
2790 const sc_fxval
2791 operator / ( const sc_fxnum& a, const sc_fxval& b )
2792 {
2794  return sc_fxval( sc_dt::div_scfx_rep( *a.m_rep, *b.get_rep() ) );
2795 }
2796 
2797 inline
2798 const sc_fxval
2799 operator / ( const sc_fxval& a, const sc_fxnum& b )
2800 {
2802  return sc_fxval( sc_dt::div_scfx_rep( *a.get_rep(), *b.m_rep ) );
2803 }
2804 
2805 DEFN_BIN_OP_T(/,div,int)
2806 DEFN_BIN_OP_T(/,div,unsigned int)
2807 DEFN_BIN_OP_T(/,div,long)
2808 DEFN_BIN_OP_T(/,div,unsigned long)
2809 DEFN_BIN_OP_T(/,div,float)
2810 DEFN_BIN_OP_T(/,div,double)
2811 DEFN_BIN_OP_T(/,div,const char*)
2812 DEFN_BIN_OP_T(/,div,const sc_fxval_fast&)
2813 DEFN_BIN_OP_T(/,div,const sc_fxnum_fast&)
2814 //DEFN_BIN_OP_OTHER(/,div)
2815 #ifndef SC_FX_EXCLUDE_OTHER
2816 DEFN_BIN_OP_T(/,div,int64)
2817 DEFN_BIN_OP_T(/,div,uint64)
2818 DEFN_BIN_OP_T(/,div,const sc_int_base&)
2819 DEFN_BIN_OP_T(/,div,const sc_uint_base&)
2820 DEFN_BIN_OP_T(/,div,const sc_signed&)
2821 DEFN_BIN_OP_T(/,div,const sc_unsigned&)
2822 #endif
2823 
2824 #undef DEFN_BIN_OP_T
2825 #undef DEFN_BIN_OP_OTHER
2826 #undef DEFN_BIN_OP
2827 
2828 
2829 inline
2830 const sc_fxval
2831 operator << ( const sc_fxnum& a, int b )
2832 {
2834  return sc_fxval( sc_dt::lsh_scfx_rep( *a.m_rep, b ) );
2835 }
2836 
2837 inline
2838 const sc_fxval
2839 operator >> ( const sc_fxnum& a, int b )
2840 {
2842  return sc_fxval( sc_dt::rsh_scfx_rep( *a.m_rep, b ) );
2843 }
2844 
2845 
2846 // binary functions
2847 
2848 #define DEFN_BIN_FNC_T(fnc,tp) \
2849 inline \
2850 void \
2851 fnc ( sc_fxval& c, const sc_fxnum& a, tp b ) \
2852 { \
2853  SC_FXNUM_OBSERVER_READ_( a ) \
2854  sc_fxval tmp( b ); \
2855  c.set_rep( sc_dt::fnc ## _scfx_rep( *a.m_rep, *tmp.get_rep() ) ); \
2856 } \
2857  \
2858 inline \
2859 void \
2860 fnc ( sc_fxval& c, tp a, const sc_fxnum& b ) \
2861 { \
2862  SC_FXNUM_OBSERVER_READ_( b ) \
2863  sc_fxval tmp( a ); \
2864  c.set_rep( sc_dt::fnc ## _scfx_rep( *tmp.get_rep(), *b.m_rep ) ); \
2865 } \
2866  \
2867 inline \
2868 void \
2869 fnc ( sc_fxnum& c, const sc_fxnum& a, tp b ) \
2870 { \
2871  SC_FXNUM_OBSERVER_READ_( a ) \
2872  sc_fxval tmp( b ); \
2873  delete c.m_rep; \
2874  c.m_rep = sc_dt::fnc ## _scfx_rep( *a.m_rep, *tmp.get_rep() ); \
2875  c.cast(); \
2876  SC_FXNUM_OBSERVER_WRITE_( c ) \
2877 } \
2878  \
2879 inline \
2880 void \
2881 fnc ( sc_fxnum& c, tp a, const sc_fxnum& b ) \
2882 { \
2883  SC_FXNUM_OBSERVER_READ_( b ) \
2884  sc_fxval tmp( a ); \
2885  delete c.m_rep; \
2886  c.m_rep = sc_dt::fnc ## _scfx_rep( *tmp.get_rep(), *b.m_rep ); \
2887  c.cast(); \
2888  SC_FXNUM_OBSERVER_WRITE_( c ) \
2889 }
2890 
2891 #ifndef SC_FX_EXCLUDE_OTHER
2892 #define DEFN_BIN_FNC_OTHER(fnc) \
2893 DEFN_BIN_FNC_T(fnc,int64) \
2894 DEFN_BIN_FNC_T(fnc,uint64) \
2895 DEFN_BIN_FNC_T(fnc,const sc_int_base&) \
2896 DEFN_BIN_FNC_T(fnc,const sc_uint_base&) \
2897 DEFN_BIN_FNC_T(fnc,const sc_signed&) \
2898 DEFN_BIN_FNC_T(fnc,const sc_unsigned&)
2899 #else
2900 #define DEFN_BIN_FNC_OTHER(fnc)
2901 #endif
2902 
2903 #define DEFN_BIN_FNC(fnc) \
2904 inline \
2905 void \
2906 fnc ( sc_fxval& c, const sc_fxnum& a, const sc_fxnum& b ) \
2907 { \
2908  SC_FXNUM_OBSERVER_READ_( a ) \
2909  SC_FXNUM_OBSERVER_READ_( b ) \
2910  c.set_rep( sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.m_rep ) ); \
2911 } \
2912  \
2913 inline \
2914 void \
2915 fnc ( sc_fxnum& c, const sc_fxnum& a, const sc_fxnum& b ) \
2916 { \
2917  SC_FXNUM_OBSERVER_READ_( a ) \
2918  SC_FXNUM_OBSERVER_READ_( b ) \
2919  delete c.m_rep; \
2920  c.m_rep = sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.m_rep ); \
2921  c.cast(); \
2922  SC_FXNUM_OBSERVER_WRITE_( c ) \
2923 } \
2924  \
2925 inline \
2926 void \
2927 fnc ( sc_fxval& c, const sc_fxnum& a, const sc_fxval& b ) \
2928 { \
2929  SC_FXNUM_OBSERVER_READ_( a ) \
2930  c.set_rep( sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.get_rep() ) ); \
2931 } \
2932  \
2933 inline \
2934 void \
2935 fnc ( sc_fxval& c, const sc_fxval& a, const sc_fxnum& b ) \
2936 { \
2937  SC_FXNUM_OBSERVER_READ_( b ) \
2938  c.set_rep( sc_dt::fnc ## _scfx_rep( *a.get_rep(), *b.m_rep ) ); \
2939 } \
2940  \
2941 inline \
2942 void \
2943 fnc ( sc_fxnum& c, const sc_fxnum& a, const sc_fxval& b ) \
2944 { \
2945  SC_FXNUM_OBSERVER_READ_( a ) \
2946  delete c.m_rep; \
2947  c.m_rep = sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.get_rep() ); \
2948  c.cast(); \
2949  SC_FXNUM_OBSERVER_WRITE_( c ) \
2950 } \
2951  \
2952 inline \
2953 void \
2954 fnc ( sc_fxnum& c, const sc_fxval& a, const sc_fxnum& b ) \
2955 { \
2956  SC_FXNUM_OBSERVER_READ_( b ) \
2957  delete c.m_rep; \
2958  c.m_rep = sc_dt::fnc ## _scfx_rep( *a.get_rep(), *b.m_rep ); \
2959  c.cast(); \
2960  SC_FXNUM_OBSERVER_WRITE_( c ) \
2961 } \
2962  \
2963 DEFN_BIN_FNC_T(fnc,int) \
2964 DEFN_BIN_FNC_T(fnc,unsigned int) \
2965 DEFN_BIN_FNC_T(fnc,long) \
2966 DEFN_BIN_FNC_T(fnc,unsigned long) \
2967 DEFN_BIN_FNC_T(fnc,float) \
2968 DEFN_BIN_FNC_T(fnc,double) \
2969 DEFN_BIN_FNC_T(fnc,const char*) \
2970 DEFN_BIN_FNC_T(fnc,const sc_fxval_fast&) \
2971 DEFN_BIN_FNC_T(fnc,const sc_fxnum_fast&) \
2972 DEFN_BIN_FNC_OTHER(fnc)
2973 
2974 DEFN_BIN_FNC(mult)
2975 DEFN_BIN_FNC(div)
2976 DEFN_BIN_FNC(add)
2977 DEFN_BIN_FNC(sub)
2978 
2979 #undef DEFN_BIN_FNC_T
2980 #undef DEFN_BIN_FNC_OTHER
2981 #undef DEFN_BIN_FNC
2982 
2983 
2984 inline
2985 void
2986 lshift( sc_fxval& c, const sc_fxnum& a, int b )
2987 {
2989  c.set_rep( sc_dt::lsh_scfx_rep( *a.m_rep, b ) );
2990 }
2991 
2992 inline
2993 void
2994 rshift( sc_fxval& c, const sc_fxnum& a, int b )
2995 {
2997  c.set_rep( sc_dt::rsh_scfx_rep( *a.m_rep, b ) );
2998 }
2999 
3000 inline
3001 void
3002 lshift( sc_fxnum& c, const sc_fxnum& a, int b )
3003 {
3005  delete c.m_rep;
3006  c.m_rep = sc_dt::lsh_scfx_rep( *a.m_rep, b );
3007  c.cast();
3009 }
3010 
3011 inline
3012 void
3013 rshift( sc_fxnum& c, const sc_fxnum& a, int b )
3014 {
3016  delete c.m_rep;
3017  c.m_rep = sc_dt::rsh_scfx_rep( *a.m_rep, b );
3018  c.cast();
3020 }
3021 
3022 
3023 // relational (including equality) operators
3024 
3025 #define DEFN_REL_OP_T(op,ret,tp) \
3026 inline \
3027 bool \
3028 operator op ( const sc_fxnum& a, tp b ) \
3029 { \
3030  SC_FXNUM_OBSERVER_READ_( a ) \
3031  sc_fxval tmp( b ); \
3032  int result = sc_dt::cmp_scfx_rep( *a.m_rep, *tmp.get_rep() ); \
3033  return ( ret ); \
3034 } \
3035  \
3036 inline \
3037 bool \
3038 operator op ( tp a, const sc_fxnum& b ) \
3039 { \
3040  SC_FXNUM_OBSERVER_READ_( b ) \
3041  sc_fxval tmp( a ); \
3042  int result = sc_dt::cmp_scfx_rep( *tmp.get_rep(), *b.m_rep ); \
3043  return ( ret ); \
3044 }
3045 
3046 #ifndef SC_FX_EXCLUDE_OTHER
3047 #define DEFN_REL_OP_OTHER(op,ret) \
3048 DEFN_REL_OP_T(op,ret,int64) \
3049 DEFN_REL_OP_T(op,ret,uint64) \
3050 DEFN_REL_OP_T(op,ret,const sc_int_base&) \
3051 DEFN_REL_OP_T(op,ret,const sc_uint_base&) \
3052 DEFN_REL_OP_T(op,ret,const sc_signed&) \
3053 DEFN_REL_OP_T(op,ret,const sc_unsigned&)
3054 #else
3055 #define DEFN_REL_OP_OTHER(op,ret)
3056 #endif
3057 
3058 #define DEFN_REL_OP(op,ret) \
3059 inline \
3060 bool \
3061 operator op ( const sc_fxnum& a, const sc_fxnum& b ) \
3062 { \
3063  SC_FXNUM_OBSERVER_READ_( a ) \
3064  SC_FXNUM_OBSERVER_READ_( b ) \
3065  int result = sc_dt::cmp_scfx_rep( *a.m_rep, *b.m_rep ); \
3066  return ( ret ); \
3067 } \
3068  \
3069 inline \
3070 bool \
3071 operator op ( const sc_fxnum& a, const sc_fxval& b ) \
3072 { \
3073  SC_FXNUM_OBSERVER_READ_( a ) \
3074  int result = sc_dt::cmp_scfx_rep( *a.m_rep, *b.get_rep() ); \
3075  return ( ret ); \
3076 } \
3077  \
3078 inline \
3079 bool \
3080 operator op ( const sc_fxval& a, const sc_fxnum& b ) \
3081 { \
3082  SC_FXNUM_OBSERVER_READ_( b ) \
3083  int result = sc_dt::cmp_scfx_rep( *a.get_rep(), *b.m_rep ); \
3084  return ( ret ); \
3085 } \
3086  \
3087 DEFN_REL_OP_T(op,ret,int) \
3088 DEFN_REL_OP_T(op,ret,unsigned int) \
3089 DEFN_REL_OP_T(op,ret,long) \
3090 DEFN_REL_OP_T(op,ret,unsigned long) \
3091 DEFN_REL_OP_T(op,ret,float) \
3092 DEFN_REL_OP_T(op,ret,double) \
3093 DEFN_REL_OP_T(op,ret,const char*) \
3094 DEFN_REL_OP_T(op,ret,const sc_fxval_fast&) \
3095 DEFN_REL_OP_T(op,ret,const sc_fxnum_fast&) \
3096 DEFN_REL_OP_OTHER(op,ret)
3097 
3098 DEFN_REL_OP(<,result < 0)
3099 DEFN_REL_OP(<=,result <= 0)
3100 DEFN_REL_OP(>,result > 0 && result != 2)
3101 DEFN_REL_OP(>=,result >= 0 && result != 2)
3102 DEFN_REL_OP(==,result == 0)
3103 DEFN_REL_OP(!=,result != 0)
3104 
3105 #undef DEFN_REL_OP_T
3106 #undef DEFN_REL_OP_OTHER
3107 #undef DEFN_REL_OP
3108 
3109 
3110 // assignment operators
3111 
3112 inline
3113 sc_fxnum&
3114 sc_fxnum::operator = ( const sc_fxnum& a )
3115 {
3116  if( &a != this )
3117  {
3119  *m_rep = *a.m_rep;
3120  cast();
3121  SC_FXNUM_OBSERVER_WRITE_( *this )
3122  }
3123  return *this;
3124 }
3125 
3126 inline
3127 sc_fxnum&
3128 sc_fxnum::operator = ( const sc_fxval& a )
3129 {
3130  *m_rep = *a.get_rep();
3131  cast();
3132  SC_FXNUM_OBSERVER_WRITE_( *this )
3133  return *this;
3134 }
3135 
3136 #define DEFN_ASN_OP_T(tp) \
3137 inline \
3138 sc_fxnum& \
3139 sc_fxnum::operator = ( tp a ) \
3140 { \
3141  sc_fxval tmp( a ); \
3142  *m_rep = *tmp.get_rep(); \
3143  cast(); \
3144  SC_FXNUM_OBSERVER_WRITE_( *this ) \
3145  return *this; \
3146 }
3147 
3148 DEFN_ASN_OP_T(int)
3149 DEFN_ASN_OP_T(unsigned int)
3150 DEFN_ASN_OP_T(long)
3151 DEFN_ASN_OP_T(unsigned long)
3152 DEFN_ASN_OP_T(float)
3153 DEFN_ASN_OP_T(double)
3154 DEFN_ASN_OP_T(const char*)
3155 DEFN_ASN_OP_T(const sc_fxval_fast&)
3156 DEFN_ASN_OP_T(const sc_fxnum_fast&)
3157 #ifndef SC_FX_EXCLUDE_OTHER
3160 DEFN_ASN_OP_T(const sc_int_base&)
3161 DEFN_ASN_OP_T(const sc_uint_base&)
3162 DEFN_ASN_OP_T(const sc_signed&)
3163 DEFN_ASN_OP_T(const sc_unsigned&)
3164 #endif
3165 
3166 #undef DEFN_ASN_OP_T
3167 
3168 
3169 #define DEFN_ASN_OP_T(op,fnc,tp) \
3170 inline \
3171 sc_fxnum& \
3172 sc_fxnum::operator op ( tp b ) \
3173 { \
3174  SC_FXNUM_OBSERVER_READ_( *this ) \
3175  sc_fxval tmp( b ); \
3176  scfx_rep* new_rep = sc_dt::fnc ## _scfx_rep( *m_rep, *tmp.get_rep() ); \
3177  delete m_rep; \
3178  m_rep = new_rep; \
3179  cast(); \
3180  SC_FXNUM_OBSERVER_WRITE_( *this ) \
3181  return *this; \
3182 }
3183 
3184 #ifndef SC_FX_EXCLUDE_OTHER
3185 #define DEFN_ASN_OP_OTHER(op,fnc) \
3186 DEFN_ASN_OP_T(op,fnc,int64) \
3187 DEFN_ASN_OP_T(op,fnc,uint64) \
3188 DEFN_ASN_OP_T(op,fnc,const sc_int_base&) \
3189 DEFN_ASN_OP_T(op,fnc,const sc_uint_base&) \
3190 DEFN_ASN_OP_T(op,fnc,const sc_signed&) \
3191 DEFN_ASN_OP_T(op,fnc,const sc_unsigned&)
3192 #else
3193 #define DEFN_ASN_OP_OTHER(op,fnc)
3194 #endif
3195 
3196 #define DEFN_ASN_OP(op,fnc) \
3197 inline \
3198 sc_fxnum& \
3199 sc_fxnum::operator op ( const sc_fxnum& b ) \
3200 { \
3201  SC_FXNUM_OBSERVER_READ_( *this ) \
3202  SC_FXNUM_OBSERVER_READ_( b ) \
3203  scfx_rep* new_rep = sc_dt::fnc ## _scfx_rep( *m_rep, *b.m_rep ); \
3204  delete m_rep; \
3205  m_rep = new_rep; \
3206  cast(); \
3207  SC_FXNUM_OBSERVER_WRITE_( *this ) \
3208  return *this; \
3209 } \
3210  \
3211 inline \
3212 sc_fxnum& \
3213 sc_fxnum::operator op ( const sc_fxval& b ) \
3214 { \
3215  SC_FXNUM_OBSERVER_READ_( *this ) \
3216  scfx_rep* new_rep = sc_dt::fnc ## _scfx_rep( *m_rep, *b.get_rep() ); \
3217  delete m_rep; \
3218  m_rep = new_rep; \
3219  cast(); \
3220  SC_FXNUM_OBSERVER_WRITE_( *this ) \
3221  return *this; \
3222 } \
3223  \
3224 DEFN_ASN_OP_T(op,fnc,int) \
3225 DEFN_ASN_OP_T(op,fnc,unsigned int) \
3226 DEFN_ASN_OP_T(op,fnc,long) \
3227 DEFN_ASN_OP_T(op,fnc,unsigned long) \
3228 DEFN_ASN_OP_T(op,fnc,float) \
3229 DEFN_ASN_OP_T(op,fnc,double) \
3230 DEFN_ASN_OP_T(op,fnc,const char*) \
3231 DEFN_ASN_OP_T(op,fnc,const sc_fxval_fast&) \
3232 DEFN_ASN_OP_T(op,fnc,const sc_fxnum_fast&) \
3233 DEFN_ASN_OP_OTHER(op,fnc)
3234 
3235 DEFN_ASN_OP(*=,mult)
3236 DEFN_ASN_OP(/=,div)
3237 DEFN_ASN_OP(+=,add)
3238 DEFN_ASN_OP(-=,sub)
3239 
3240 #undef DEFN_ASN_OP_T
3241 #undef DEFN_ASN_OP_OTHER
3242 #undef DEFN_ASN_OP
3243 
3244 
3245 inline
3246 sc_fxnum&
3247 sc_fxnum::operator <<= ( int b )
3248 {
3249  SC_FXNUM_OBSERVER_READ_( *this )
3250  m_rep->lshift( b );
3251  cast();
3252  SC_FXNUM_OBSERVER_WRITE_( *this )
3253  return *this;
3254 }
3255 
3256 inline
3257 sc_fxnum&
3258 sc_fxnum::operator >>= ( int b )
3259 {
3260  SC_FXNUM_OBSERVER_READ_( *this )
3261  m_rep->rshift( b );
3262  cast();
3263  SC_FXNUM_OBSERVER_WRITE_( *this )
3264  return *this;
3265 }
3266 
3267 
3268 // auto-increment and auto-decrement
3269 
3270 inline
3271 const sc_fxval
3272 sc_fxnum::operator ++ ( int )
3273 {
3274  sc_fxval c( *this );
3275  (*this) += 1;
3276  return c;
3277 }
3278 
3279 inline
3280 const sc_fxval
3282 {
3283  sc_fxval c( *this );
3284  (*this) -= 1;
3285  return c;
3286 }
3287 
3288 inline
3289 sc_fxnum&
3291 {
3292  (*this) += 1;
3293  return *this;
3294 }
3295 
3296 inline
3297 sc_fxnum&
3299 {
3300  (*this) -= 1;
3301  return *this;
3302 }
3303 
3304 
3305 // bit selection
3306 
3307 inline
3308 const sc_fxnum_bitref
3310 {
3311  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3312  return sc_fxnum_bitref( const_cast<sc_fxnum&>( *this ),
3313  i - m_params.fwl() );
3314 }
3315 
3316 inline
3319 {
3320  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3321  return sc_fxnum_bitref( *this, i - m_params.fwl() );
3322 }
3323 
3324 inline
3325 const sc_fxnum_bitref
3326 sc_fxnum::bit( int i ) const
3327 {
3328  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3329  return sc_fxnum_bitref( const_cast<sc_fxnum&>( *this ),
3330  i - m_params.fwl() );
3331 }
3332 
3333 inline
3336 {
3337  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3338  return sc_fxnum_bitref( *this, i - m_params.fwl() );
3339 }
3340 
3341 
3342 // part selection
3343 
3344 inline
3345 const sc_fxnum_subref
3346 sc_fxnum::operator () ( int i, int j ) const
3347 {
3348  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3349  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3350 
3351  return sc_fxnum_subref( const_cast<sc_fxnum&>( *this ),
3352  i - m_params.fwl(), j - m_params.fwl() );
3353 }
3354 
3355 inline
3357 sc_fxnum::operator () ( int i, int j )
3358 {
3359  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3360  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3361 
3362  return sc_fxnum_subref( *this, i - m_params.fwl(), j - m_params.fwl() );
3363 }
3364 
3365 inline
3366 const sc_fxnum_subref
3367 sc_fxnum::range( int i, int j ) const
3368 {
3369  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3370  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3371 
3372  return sc_fxnum_subref( const_cast<sc_fxnum&>( *this ),
3373  i - m_params.fwl(), j - m_params.fwl() );
3374 }
3375 
3376 inline
3378 sc_fxnum::range( int i, int j )
3379 {
3380  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3381  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
3382 
3383  return sc_fxnum_subref( *this, i - m_params.fwl(), j - m_params.fwl() );
3384 }
3385 
3386 
3387 inline
3388 const sc_fxnum_subref
3390 {
3391  return this->operator () ( m_params.wl() - 1, 0 );
3392 }
3393 
3394 inline
3397 {
3398  return this->operator () ( m_params.wl() - 1, 0 );
3399 }
3400 
3401 inline
3402 const sc_fxnum_subref
3404 {
3405  return this->range( m_params.wl() - 1, 0 );
3406 }
3407 
3408 inline
3411 {
3412  return this->range( m_params.wl() - 1, 0 );
3413 }
3414 
3415 
3416 // implicit conversion
3417 
3418 inline
3419 sc_fxnum::operator double() const
3420 {
3421  SC_FXNUM_OBSERVER_READ_( *this )
3422  return m_rep->to_double();
3423 }
3424 
3425 
3426 // explicit conversion to primitive types
3427 
3428 inline
3429 short
3431 {
3432  SC_FXNUM_OBSERVER_READ_( *this )
3433  return static_cast<short>( m_rep->to_double() );
3434 }
3435 
3436 inline
3437 unsigned short
3439 {
3440  SC_FXNUM_OBSERVER_READ_( *this )
3441  return static_cast<unsigned short>( m_rep->to_double() );
3442 }
3443 
3444 inline
3445 int
3447 {
3448  SC_FXNUM_OBSERVER_READ_( *this )
3449  return static_cast<int>( m_rep->to_double() );
3450 }
3451 
3452 inline
3453 int64
3455 {
3456  SC_FXNUM_OBSERVER_READ_( *this )
3457  return static_cast<int64>( m_rep->to_double() );
3458 }
3459 
3460 inline
3461 unsigned int
3463 {
3464  SC_FXNUM_OBSERVER_READ_( *this )
3465  return static_cast<unsigned int>( m_rep->to_double() );
3466 }
3467 
3468 inline
3469 uint64
3471 {
3472  SC_FXNUM_OBSERVER_READ_( *this )
3473  return static_cast<uint64>( m_rep->to_double() );
3474 }
3475 
3476 inline
3477 long
3479 {
3480  SC_FXNUM_OBSERVER_READ_( *this )
3481  return static_cast<long>( m_rep->to_double() );
3482 }
3483 
3484 inline
3485 unsigned long
3487 {
3488  SC_FXNUM_OBSERVER_READ_( *this )
3489  return static_cast<unsigned long>( m_rep->to_double() );
3490 }
3491 
3492 inline
3493 float
3495 {
3496  SC_FXNUM_OBSERVER_READ_( *this )
3497  return static_cast<float>( m_rep->to_double() );
3498 }
3499 
3500 inline
3501 double
3503 {
3504  SC_FXNUM_OBSERVER_READ_( *this )
3505  return m_rep->to_double();
3506 }
3507 
3508 
3509 // query value
3510 
3511 inline
3512 bool
3514 {
3515  SC_FXNUM_OBSERVER_READ_( *this )
3516  return m_rep->is_neg();
3517 }
3518 
3519 inline
3520 bool
3522 {
3523  SC_FXNUM_OBSERVER_READ_( *this )
3524  return m_rep->is_zero();
3525 }
3526 
3527 // internal use only;
3528 inline
3529 bool
3531 {
3532  SC_FXNUM_OBSERVER_READ_( *this )
3533  return m_rep->is_normal();
3534 }
3535 
3536 inline
3537 bool
3539 {
3540  return m_q_flag;
3541 }
3542 
3543 inline
3544 bool
3546 {
3547  return m_o_flag;
3548 }
3549 
3550 
3551 inline
3552 const sc_fxval
3554 {
3555  SC_FXNUM_OBSERVER_READ_( *this )
3556  return sc_fxval( new scfx_rep( *m_rep ) );
3557 }
3558 
3559 
3560 // query parameters
3561 
3562 inline
3563 int
3565 {
3566  return m_params.wl();
3567 }
3568 
3569 inline
3570 int
3572 {
3573  return m_params.iwl();
3574 }
3575 
3576 inline
3577 sc_q_mode
3579 {
3580  return m_params.q_mode();
3581 }
3582 
3583 inline
3584 sc_o_mode
3586 {
3587  return m_params.o_mode();
3588 }
3589 
3590 inline
3591 int
3593 {
3594  return m_params.n_bits();
3595 }
3596 
3597 
3598 inline
3599 const sc_fxtype_params&
3601 {
3602  return m_params.type_params();
3603 }
3604 
3605 
3606 inline
3607 const sc_fxcast_switch&
3609 {
3610  return m_params.cast_switch();
3611 }
3612 
3613 
3614 // internal use only;
3615 inline
3616 void
3618 {
3619  SC_FXNUM_OBSERVER_READ_( *this );
3620 }
3621 
3622 
3623 // internal use only;
3624 inline
3625 bool
3626 sc_fxnum::get_bit( int i ) const
3627 {
3628  return m_rep->get_bit( i );
3629 }
3630 
3631 
3632 // protected methods and friend functions
3633 
3634 inline
3635 bool
3636 sc_fxnum::set_bit( int i, bool high )
3637 {
3638  if( high )
3639  return m_rep->set( i, m_params );
3640  else
3641  return m_rep->clear( i, m_params );
3642 }
3643 
3644 
3645 inline
3646 bool
3647 sc_fxnum::get_slice( int i, int j, sc_bv_base& bv ) const
3648 {
3649  return m_rep->get_slice( i, j, m_params, bv );
3650 }
3651 
3652 inline
3653 bool
3654 sc_fxnum::set_slice( int i, int j, const sc_bv_base& bv )
3655 {
3656  return m_rep->set_slice( i, j, m_params, bv );
3657 }
3658 
3659 
3660 inline
3661 ::std::ostream&
3662 operator << ( ::std::ostream& os, const sc_fxnum& a )
3663 {
3664  a.print( os );
3665  return os;
3666 }
3667 
3668 inline
3669 ::std::istream&
3670 operator >> ( ::std::istream& is, sc_fxnum& a )
3671 {
3672  a.scan( is );
3673  return is;
3674 }
3675 
3676 
3677 // ----------------------------------------------------------------------------
3678 // CLASS : sc_fxnum_fast
3679 //
3680 // Base class for the fixed-point types; limited precision.
3681 // ----------------------------------------------------------------------------
3682 
3683 inline
3684 sc_fxnum_fast_observer*
3686 {
3687  return m_observer;
3688 }
3689 
3690 
3691 // constructors
3692 
3693 inline
3694 sc_fxnum_fast::sc_fxnum_fast( const sc_fxtype_params& type_params_,
3695  sc_enc enc_,
3696  const sc_fxcast_switch& cast_sw,
3697  sc_fxnum_fast_observer* observer_ )
3698 : m_val( 0.0 ),
3699  m_params( type_params_, enc_, cast_sw ),
3700  m_q_flag( false ),
3701  m_o_flag( false ),
3702  m_observer( observer_ )
3703 {
3706 }
3707 
3708 inline
3709 sc_fxnum_fast::sc_fxnum_fast( const sc_fxnum_fast& a,
3710  const sc_fxtype_params& type_params_,
3711  sc_enc enc_,
3712  const sc_fxcast_switch& cast_sw,
3713  sc_fxnum_fast_observer* observer_ )
3714 : m_val( a.m_val ),
3715  m_params( type_params_, enc_, cast_sw ),
3716  m_q_flag( false ),
3717  m_o_flag( false ),
3718  m_observer( observer_ )
3719 {
3722  cast();
3725 }
3726 
3727 #define DEFN_CTOR_T(tp,arg) \
3728 inline \
3729 sc_fxnum_fast::sc_fxnum_fast( tp a, \
3730  const sc_fxtype_params& type_params_, \
3731  sc_enc enc_, \
3732  const sc_fxcast_switch& cast_sw, \
3733  sc_fxnum_fast_observer* observer_ ) \
3734 : m_val( arg ), \
3735  m_params( type_params_, enc_, cast_sw ), \
3736  m_q_flag( false ), \
3737  m_o_flag( false ), \
3738  m_observer( observer_ ) \
3739 { \
3740  SC_FXNUM_FAST_OBSERVER_DEFAULT_ \
3741  cast(); \
3742  SC_FXNUM_FAST_OBSERVER_CONSTRUCT_(*this) \
3743  SC_FXNUM_FAST_OBSERVER_WRITE_( *this ) \
3744 }
3745 
3746 #define DEFN_CTOR_T_A(tp) DEFN_CTOR_T(tp,static_cast<double>( a ))
3747 #define DEFN_CTOR_T_B(tp) DEFN_CTOR_T(tp,sc_fxval_fast::from_string( a ))
3748 #define DEFN_CTOR_T_C(tp) DEFN_CTOR_T(tp,a.to_double())
3749 
3750 DEFN_CTOR_T_A(int)
3751 DEFN_CTOR_T_A(unsigned int)
3752 DEFN_CTOR_T_A(long)
3753 DEFN_CTOR_T_A(unsigned long)
3754 DEFN_CTOR_T_A(float)
3755 DEFN_CTOR_T_A(double)
3756 DEFN_CTOR_T_B(const char*)
3757 DEFN_CTOR_T_C(const sc_fxval&)
3759 DEFN_CTOR_T_C(const sc_fxnum&)
3760 #ifndef SC_FX_EXCLUDE_OTHER
3763 DEFN_CTOR_T_C(const sc_int_base&)
3764 DEFN_CTOR_T_C(const sc_uint_base&)
3765 DEFN_CTOR_T_C(const sc_signed&)
3766 DEFN_CTOR_T_C(const sc_unsigned&)
3767 #endif
3768 
3769 #undef DEFN_CTOR_T
3770 #undef DEFN_CTOR_T_A
3771 #undef DEFN_CTOR_T_B
3772 #undef DEFN_CTOR_T_C
3773 #undef DEFN_CTOR_T_D
3774 #undef DEFN_CTOR_T_E
3775 
3776 
3777 inline
3779 {
3781 }
3782 
3783 
3784 // internal use only;
3785 inline
3786 double
3788 {
3790  return m_val;
3791 }
3792 
3793 
3794 // unary operators
3795 
3796 inline
3797 const sc_fxval_fast
3799 {
3801  return sc_fxval_fast( - m_val );
3802 }
3803 
3804 inline
3805 const sc_fxval_fast
3807 {
3809  return sc_fxval_fast( m_val );
3810 }
3811 
3812 
3813 // unary functions
3814 
3815 inline
3816 void
3817 neg( sc_fxval_fast& c, const sc_fxnum_fast& a )
3818 {
3820  c.set_val( - a.m_val );
3821 }
3822 
3823 inline
3824 void
3825 neg( sc_fxnum_fast& c, const sc_fxnum_fast& a )
3826 {
3828  c.m_val = - a.m_val;
3829  c.cast();
3831 }
3832 
3833 
3834 // binary operators
3835 
3836 #define DEFN_BIN_OP_T(op,tp) \
3837 inline \
3838 const sc_fxval_fast \
3839 operator op ( const sc_fxnum_fast& a, tp b ) \
3840 { \
3841  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
3842  sc_fxval_fast tmp( b ); \
3843  return sc_fxval_fast( a.m_val op tmp.get_val() ); \
3844 } \
3845  \
3846 inline \
3847 const sc_fxval_fast \
3848 operator op ( tp a, const sc_fxnum_fast& b ) \
3849 { \
3850  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
3851  sc_fxval_fast tmp( a ); \
3852  return sc_fxval_fast( tmp.get_val() op b.m_val ); \
3853 }
3854 
3855 #ifndef SC_FX_EXCLUDE_OTHER
3856 #define DEFN_BIN_OP_OTHER(op) \
3857 DEFN_BIN_OP_T(op,int64) \
3858 DEFN_BIN_OP_T(op,uint64) \
3859 DEFN_BIN_OP_T(op,const sc_int_base&) \
3860 DEFN_BIN_OP_T(op,const sc_uint_base&) \
3861 DEFN_BIN_OP_T(op,const sc_signed&) \
3862 DEFN_BIN_OP_T(op,const sc_unsigned&)
3863 #else
3864 #define DEFN_BIN_OP_OTHER(op)
3865 #endif
3866 
3867 #define DEFN_BIN_OP(op,dummy) \
3868 inline \
3869 const sc_fxval_fast \
3870 operator op ( const sc_fxnum_fast& a, const sc_fxnum_fast& b ) \
3871 { \
3872  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
3873  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
3874  return sc_fxval_fast( a.m_val op b.m_val ); \
3875 } \
3876  \
3877 inline \
3878 const sc_fxval_fast \
3879 operator op ( const sc_fxnum_fast& a, const sc_fxval_fast& b ) \
3880 { \
3881  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
3882  return sc_fxval_fast( a.m_val op b.get_val() ); \
3883 } \
3884  \
3885 inline \
3886 const sc_fxval_fast \
3887 operator op ( const sc_fxval_fast& a, const sc_fxnum_fast& b ) \
3888 { \
3889  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
3890  return sc_fxval_fast( a.get_val() op b.m_val ); \
3891 } \
3892  \
3893 DEFN_BIN_OP_T(op,int) \
3894 DEFN_BIN_OP_T(op,unsigned int) \
3895 DEFN_BIN_OP_T(op,long) \
3896 DEFN_BIN_OP_T(op,unsigned long) \
3897 DEFN_BIN_OP_T(op,float) \
3898 DEFN_BIN_OP_T(op,double) \
3899 DEFN_BIN_OP_T(op,const char*) \
3900 DEFN_BIN_OP_OTHER(op)
3901 
3902 DEFN_BIN_OP(*,mult)
3903 DEFN_BIN_OP(+,add)
3904 DEFN_BIN_OP(-,sub)
3905 //DEFN_BIN_OP(/,div)
3906 inline
3907 const sc_fxval_fast
3908 operator / ( const sc_fxnum_fast& a, const sc_fxnum_fast& b )
3909 {
3912  return sc_fxval_fast( a.m_val / b.m_val );
3913 }
3914 
3915 inline
3916 const sc_fxval_fast
3917 operator / ( const sc_fxnum_fast& a, const sc_fxval_fast& b )
3918 {
3920  return sc_fxval_fast( a.m_val / b.get_val() );
3921 }
3922 
3923 inline
3924 const sc_fxval_fast
3925 operator / ( const sc_fxval_fast& a, const sc_fxnum_fast& b )
3926 {
3928  return sc_fxval_fast( a.get_val() / b.m_val );
3929 }
3930 
3931 DEFN_BIN_OP_T(/,int)
3932 DEFN_BIN_OP_T(/,unsigned int)
3933 DEFN_BIN_OP_T(/,long)
3934 DEFN_BIN_OP_T(/,unsigned long)
3935 DEFN_BIN_OP_T(/,float)
3936 DEFN_BIN_OP_T(/,double)
3937 DEFN_BIN_OP_T(/,const char*)
3938 //DEFN_BIN_OP_OTHER(/)
3939 #ifndef SC_FX_EXCLUDE_OTHER
3941 DEFN_BIN_OP_T(/,uint64)
3942 DEFN_BIN_OP_T(/,const sc_int_base&)
3943 DEFN_BIN_OP_T(/,const sc_uint_base&)
3944 DEFN_BIN_OP_T(/,const sc_signed&)
3945 DEFN_BIN_OP_T(/,const sc_unsigned&)
3946 #endif
3947 
3948 #undef DEFN_BIN_OP_T
3949 #undef DEFN_BIN_OP_OTHER
3950 #undef DEFN_BIN_OP
3951 
3952 
3953 inline
3954 const sc_fxval_fast
3955 operator << ( const sc_fxnum_fast& a, int b )
3956 {
3958  return sc_fxval_fast( a.m_val * scfx_pow2( b ) );
3959 }
3960 
3961 inline
3962 const sc_fxval_fast
3963 operator >> ( const sc_fxnum_fast& a, int b )
3964 {
3966  return sc_fxval_fast( a.m_val * scfx_pow2( -b ) );
3967 }
3968 
3969 
3970 // binary functions
3971 
3972 #define DEFN_BIN_FNC_T(fnc,op,tp) \
3973 inline \
3974 void \
3975 fnc ( sc_fxval_fast& c, const sc_fxnum_fast& a, tp b ) \
3976 { \
3977  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
3978  sc_fxval_fast tmp( b ); \
3979  c.set_val( a.m_val op tmp.get_val() ); \
3980 } \
3981  \
3982 inline \
3983 void \
3984 fnc ( sc_fxval_fast& c, tp a, const sc_fxnum_fast& b ) \
3985 { \
3986  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
3987  sc_fxval_fast tmp( a ); \
3988  c.set_val( tmp.get_val() op b.m_val ); \
3989 } \
3990  \
3991 inline \
3992 void \
3993 fnc ( sc_fxnum_fast& c, const sc_fxnum_fast& a, tp b ) \
3994 { \
3995  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
3996  sc_fxval_fast tmp( b ); \
3997  c.m_val = a.m_val op tmp.get_val(); \
3998  c.cast(); \
3999  SC_FXNUM_FAST_OBSERVER_WRITE_( c ) \
4000 } \
4001  \
4002 inline \
4003 void \
4004 fnc ( sc_fxnum_fast& c, tp a, const sc_fxnum_fast& b ) \
4005 { \
4006  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4007  sc_fxval_fast tmp( a ); \
4008  c.m_val = tmp.get_val() op b.m_val; \
4009  c.cast(); \
4010  SC_FXNUM_FAST_OBSERVER_WRITE_( c ) \
4011 }
4012 
4013 #ifndef SC_FX_EXCLUDE_OTHER
4014 #define DEFN_BIN_FNC_OTHER(fnc,op) \
4015 DEFN_BIN_FNC_T(fnc,op,int64) \
4016 DEFN_BIN_FNC_T(fnc,op,uint64) \
4017 DEFN_BIN_FNC_T(fnc,op,const sc_int_base&) \
4018 DEFN_BIN_FNC_T(fnc,op,const sc_uint_base&) \
4019 DEFN_BIN_FNC_T(fnc,op,const sc_signed&) \
4020 DEFN_BIN_FNC_T(fnc,op,const sc_unsigned&)
4021 #else
4022 #define DEFN_BIN_FNC_OTHER(fnc,op)
4023 #endif
4024 
4025 #define DEFN_BIN_FNC(fnc,op) \
4026 inline \
4027 void \
4028 fnc ( sc_fxval_fast& c, const sc_fxnum_fast& a, const sc_fxnum_fast& b ) \
4029 { \
4030  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4031  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4032  c.set_val( a.m_val op b.m_val ); \
4033 } \
4034  \
4035 inline \
4036 void \
4037 fnc ( sc_fxnum_fast& c, const sc_fxnum_fast& a, const sc_fxnum_fast& b ) \
4038 { \
4039  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4040  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4041  c.m_val = a.m_val op b.m_val; \
4042  c.cast(); \
4043  SC_FXNUM_FAST_OBSERVER_WRITE_( c ) \
4044 } \
4045  \
4046 inline \
4047 void \
4048 fnc ( sc_fxval_fast& c, const sc_fxnum_fast& a, const sc_fxval_fast& b ) \
4049 { \
4050  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4051  c.set_val( a.m_val op b.get_val() ); \
4052 } \
4053  \
4054 inline \
4055 void \
4056 fnc ( sc_fxval_fast& c, const sc_fxval_fast& a, const sc_fxnum_fast& b ) \
4057 { \
4058  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4059  c.set_val( a.get_val() op b.m_val ); \
4060 } \
4061  \
4062 inline \
4063 void \
4064 fnc ( sc_fxnum_fast& c, const sc_fxnum_fast& a, const sc_fxval_fast& b ) \
4065 { \
4066  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4067  c.m_val = a.m_val op b.get_val(); \
4068  c.cast(); \
4069  SC_FXNUM_FAST_OBSERVER_WRITE_( c ) \
4070 } \
4071  \
4072 inline \
4073 void \
4074 fnc ( sc_fxnum_fast& c, const sc_fxval_fast& a, const sc_fxnum_fast& b ) \
4075 { \
4076  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4077  c.m_val = a.get_val() op b.m_val; \
4078  c.cast(); \
4079  SC_FXNUM_FAST_OBSERVER_WRITE_( c ) \
4080 } \
4081  \
4082 DEFN_BIN_FNC_T(fnc,op,int) \
4083 DEFN_BIN_FNC_T(fnc,op,unsigned int) \
4084 DEFN_BIN_FNC_T(fnc,op,long) \
4085 DEFN_BIN_FNC_T(fnc,op,unsigned long) \
4086 DEFN_BIN_FNC_T(fnc,op,float) \
4087 DEFN_BIN_FNC_T(fnc,op,double) \
4088 DEFN_BIN_FNC_T(fnc,op,const char*) \
4089 DEFN_BIN_FNC_T(fnc,op,const sc_fxval&) \
4090 DEFN_BIN_FNC_T(fnc,op,const sc_fxnum&) \
4091 DEFN_BIN_FNC_OTHER(fnc,op)
4092 
4093 DEFN_BIN_FNC(mult,*)
4094 DEFN_BIN_FNC(div,/)
4095 DEFN_BIN_FNC(add,+)
4096 DEFN_BIN_FNC(sub,-)
4097 
4098 #undef DEFN_BIN_FNC_T
4099 #undef DEFN_BIN_FNC_OTHER
4100 #undef DEFN_BIN_FNC
4101 
4102 
4103 inline
4104 void
4105 lshift( sc_fxval_fast& c, const sc_fxnum_fast& a, int b )
4106 {
4108  c.set_val( a.m_val * scfx_pow2( b ) );
4109 }
4110 
4111 inline
4112 void
4113 rshift( sc_fxval_fast& c, const sc_fxnum_fast& a, int b )
4114 {
4116  c.set_val( a.m_val * scfx_pow2( -b ) );
4117 }
4118 
4119 inline
4120 void
4121 lshift( sc_fxnum_fast& c, const sc_fxnum_fast& a, int b )
4122 {
4124  c.m_val = a.m_val * scfx_pow2( b );
4125  c.cast();
4127 }
4128 
4129 inline
4130 void
4131 rshift( sc_fxnum_fast& c, const sc_fxnum_fast& a, int b )
4132 {
4134  c.m_val = a.m_val * scfx_pow2( -b );
4135  c.cast();
4137 }
4138 
4139 
4140 // relational (including equality) operators
4141 
4142 #define DEFN_REL_OP_T(op,tp) \
4143 inline \
4144 bool \
4145 operator op ( const sc_fxnum_fast& a, tp b ) \
4146 { \
4147  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4148  sc_fxval_fast tmp( b ); \
4149  return ( a.m_val op tmp.get_val() ); \
4150 } \
4151  \
4152 inline \
4153 bool \
4154 operator op ( tp a, const sc_fxnum_fast& b ) \
4155 { \
4156  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4157  sc_fxval_fast tmp( a ); \
4158  return ( tmp.get_val() op b.m_val ); \
4159 }
4160 
4161 #ifndef SC_FX_EXCLUDE_OTHER
4162 #define DEFN_REL_OP_OTHER(op) \
4163 DEFN_REL_OP_T(op,int64) \
4164 DEFN_REL_OP_T(op,uint64) \
4165 DEFN_REL_OP_T(op,const sc_int_base&) \
4166 DEFN_REL_OP_T(op,const sc_uint_base&) \
4167 DEFN_REL_OP_T(op,const sc_signed&) \
4168 DEFN_REL_OP_T(op,const sc_unsigned&)
4169 #else
4170 #define DEFN_REL_OP_OTHER(op)
4171 #endif
4172 
4173 #define DEFN_REL_OP(op) \
4174 inline \
4175 bool \
4176 operator op ( const sc_fxnum_fast& a, const sc_fxnum_fast& b ) \
4177 { \
4178  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4179  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4180  return ( a.m_val op b.m_val ); \
4181 } \
4182  \
4183 inline \
4184 bool \
4185 operator op ( const sc_fxnum_fast& a, const sc_fxval_fast& b ) \
4186 { \
4187  SC_FXNUM_FAST_OBSERVER_READ_( a ) \
4188  return ( a.m_val op b.get_val() ); \
4189 } \
4190  \
4191 inline \
4192 bool \
4193 operator op ( const sc_fxval_fast& a, const sc_fxnum_fast& b ) \
4194 { \
4195  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4196  return ( a.get_val() op b.m_val ); \
4197 } \
4198  \
4199 DEFN_REL_OP_T(op,int) \
4200 DEFN_REL_OP_T(op,unsigned int) \
4201 DEFN_REL_OP_T(op,long) \
4202 DEFN_REL_OP_T(op,unsigned long) \
4203 DEFN_REL_OP_T(op,float) \
4204 DEFN_REL_OP_T(op,double) \
4205 DEFN_REL_OP_T(op,const char*) \
4206 DEFN_REL_OP_OTHER(op)
4207 
4208 DEFN_REL_OP(<)
4209 DEFN_REL_OP(<=)
4210 DEFN_REL_OP(>)
4211 DEFN_REL_OP(>=)
4212 DEFN_REL_OP(==)
4213 DEFN_REL_OP(!=)
4214 
4215 #undef DEFN_REL_OP_T
4216 #undef DEFN_REL_OP_OTHER
4217 #undef DEFN_REL_OP
4218 
4219 
4220 // assignment operators
4221 
4222 inline
4223 sc_fxnum_fast&
4224 sc_fxnum_fast::operator = ( const sc_fxnum_fast& a )
4225 {
4226  if( &a != this )
4227  {
4229  m_val = a.m_val;
4230  cast();
4232  }
4233  return *this;
4234 }
4235 
4236 inline
4237 sc_fxnum_fast&
4238 sc_fxnum_fast::operator = ( const sc_fxval_fast& a )
4239 {
4240  m_val = a.get_val();
4241  cast();
4243  return *this;
4244 }
4245 
4246 #define DEFN_ASN_OP_T(tp) \
4247 inline \
4248 sc_fxnum_fast& \
4249 sc_fxnum_fast::operator = ( tp a ) \
4250 { \
4251  sc_fxval_fast tmp( a ); \
4252  m_val = tmp.get_val(); \
4253  cast(); \
4254  SC_FXNUM_FAST_OBSERVER_WRITE_( *this ) \
4255  return *this; \
4256 }
4257 
4258 DEFN_ASN_OP_T(int)
4259 DEFN_ASN_OP_T(unsigned int)
4260 DEFN_ASN_OP_T(long)
4261 DEFN_ASN_OP_T(unsigned long)
4262 DEFN_ASN_OP_T(float)
4263 DEFN_ASN_OP_T(double)
4264 DEFN_ASN_OP_T(const char*)
4265 DEFN_ASN_OP_T(const sc_fxval&)
4266 DEFN_ASN_OP_T(const sc_fxnum&)
4267 #ifndef SC_FX_EXCLUDE_OTHER
4270 DEFN_ASN_OP_T(const sc_int_base&)
4271 DEFN_ASN_OP_T(const sc_uint_base&)
4272 DEFN_ASN_OP_T(const sc_signed&)
4273 DEFN_ASN_OP_T(const sc_unsigned&)
4274 #endif
4275 
4276 #undef DEFN_ASN_OP_T
4277 
4278 
4279 #define DEFN_ASN_OP_T(op,tp) \
4280 inline \
4281 sc_fxnum_fast& \
4282 sc_fxnum_fast::operator op ( tp b ) \
4283 { \
4284  SC_FXNUM_FAST_OBSERVER_READ_( *this ) \
4285  sc_fxval_fast tmp( b ); \
4286  m_val op tmp.get_val(); \
4287  cast(); \
4288  SC_FXNUM_FAST_OBSERVER_WRITE_( *this ) \
4289  return *this; \
4290 }
4291 
4292 #ifndef SC_FX_EXCLUDE_OTHER
4293 #define DEFN_ASN_OP_OTHER(op) \
4294 DEFN_ASN_OP_T(op,int64) \
4295 DEFN_ASN_OP_T(op,uint64) \
4296 DEFN_ASN_OP_T(op,const sc_int_base&) \
4297 DEFN_ASN_OP_T(op,const sc_uint_base&) \
4298 DEFN_ASN_OP_T(op,const sc_signed&) \
4299 DEFN_ASN_OP_T(op,const sc_unsigned&)
4300 #else
4301 #define DEFN_ASN_OP_OTHER(op)
4302 #endif
4303 
4304 #define DEFN_ASN_OP(op) \
4305 inline \
4306 sc_fxnum_fast& \
4307 sc_fxnum_fast::operator op ( const sc_fxnum_fast& b ) \
4308 { \
4309  SC_FXNUM_FAST_OBSERVER_READ_( *this ) \
4310  SC_FXNUM_FAST_OBSERVER_READ_( b ) \
4311  m_val op b.m_val; \
4312  cast(); \
4313  SC_FXNUM_FAST_OBSERVER_WRITE_( *this ) \
4314  return *this; \
4315 } \
4316  \
4317 inline \
4318 sc_fxnum_fast& \
4319 sc_fxnum_fast::operator op ( const sc_fxval_fast& b ) \
4320 { \
4321  SC_FXNUM_FAST_OBSERVER_READ_( *this ) \
4322  m_val op b.get_val(); \
4323  cast(); \
4324  SC_FXNUM_FAST_OBSERVER_WRITE_( *this ) \
4325  return *this; \
4326 } \
4327  \
4328 DEFN_ASN_OP_T(op,int) \
4329 DEFN_ASN_OP_T(op,unsigned int) \
4330 DEFN_ASN_OP_T(op,long) \
4331 DEFN_ASN_OP_T(op,unsigned long) \
4332 DEFN_ASN_OP_T(op,float) \
4333 DEFN_ASN_OP_T(op,double) \
4334 DEFN_ASN_OP_T(op,const char*) \
4335 DEFN_ASN_OP_T(op,const sc_fxval&) \
4336 DEFN_ASN_OP_T(op,const sc_fxnum&) \
4337 DEFN_ASN_OP_OTHER(op)
4338 
4339 DEFN_ASN_OP(*=)
4340 DEFN_ASN_OP(/=)
4341 DEFN_ASN_OP(+=)
4342 DEFN_ASN_OP(-=)
4343 
4344 #undef DEFN_ASN_OP_T
4345 #undef DEFN_ASN_OP_OTHER
4346 #undef DEFN_ASN_OP
4347 
4348 
4349 inline
4350 sc_fxnum_fast&
4351 sc_fxnum_fast::operator <<= ( int b )
4352 {
4354  m_val *= scfx_pow2( b );
4355  cast();
4357  return *this;
4358 }
4359 
4360 inline
4361 sc_fxnum_fast&
4362 sc_fxnum_fast::operator >>= ( int b )
4363 {
4365  m_val *= scfx_pow2( -b );
4366  cast();
4368  return *this;
4369 }
4370 
4371 
4372 // auto-increment and auto-decrement
4373 
4374 inline
4375 const sc_fxval_fast
4376 sc_fxnum_fast::operator ++ ( int )
4377 {
4380  double c = m_val;
4381  m_val = m_val + 1;
4382  cast();
4384  return sc_fxval_fast( c );
4385 }
4386 
4387 inline
4388 const sc_fxval_fast
4390 {
4393  double c = m_val;
4394  m_val = m_val - 1;
4395  cast();
4397  return sc_fxval_fast( c );
4398 }
4399 
4400 inline
4401 sc_fxnum_fast&
4403 {
4405  m_val = m_val + 1;
4406  cast();
4408  return *this;
4409 }
4410 
4411 inline
4412 sc_fxnum_fast&
4414 {
4416  m_val = m_val - 1;
4417  cast();
4419  return *this;
4420 }
4421 
4422 
4423 // bit selection
4424 
4425 inline
4428 {
4429  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4430  return sc_fxnum_fast_bitref( const_cast<sc_fxnum_fast&>( *this ),
4431  i - m_params.fwl() );
4432 }
4433 
4434 inline
4437 {
4438  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4439  return sc_fxnum_fast_bitref( *this, i - m_params.fwl() );
4440 }
4441 
4442 inline
4444 sc_fxnum_fast::bit( int i ) const
4445 {
4446  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4447  return sc_fxnum_fast_bitref( const_cast<sc_fxnum_fast&>( *this ),
4448  i - m_params.fwl() );
4449 }
4450 
4451 inline
4454 {
4455  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4456  return sc_fxnum_fast_bitref( *this, i - m_params.fwl() );
4457 }
4458 
4459 
4460 // part selection
4461 
4462 inline
4464 sc_fxnum_fast::operator () ( int i, int j ) const
4465 {
4466  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4467  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4468 
4469  return sc_fxnum_fast_subref( const_cast<sc_fxnum_fast&>( *this ),
4470  i - m_params.fwl(), j - m_params.fwl() );
4471 }
4472 
4473 inline
4476 {
4477  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4478  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4479 
4480  return sc_fxnum_fast_subref( *this,
4481  i - m_params.fwl(), j - m_params.fwl() );
4482 }
4483 
4484 inline
4486 sc_fxnum_fast::range( int i, int j ) const
4487 {
4488  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4489  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4490 
4491  return sc_fxnum_fast_subref( const_cast<sc_fxnum_fast&>( *this ),
4492  i - m_params.fwl(), j - m_params.fwl() );
4493 }
4494 
4495 inline
4497 sc_fxnum_fast::range( int i, int j )
4498 {
4499  SC_ERROR_IF_( i < 0 || i >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4500  SC_ERROR_IF_( j < 0 || j >= m_params.wl(), sc_core::SC_ID_OUT_OF_RANGE_ );
4501 
4502  return sc_fxnum_fast_subref( *this,
4503  i - m_params.fwl(), j - m_params.fwl() );
4504 }
4505 
4506 inline
4509 {
4510  return this->operator () ( m_params.wl() - 1, 0 );
4511 }
4512 
4513 inline
4516 {
4517  return this->operator () ( m_params.wl() - 1, 0 );
4518 }
4519 
4520 inline
4523 {
4524  return this->range( m_params.wl() - 1, 0 );
4525 }
4526 
4527 inline
4530 {
4531  return this->range( m_params.wl() - 1, 0 );
4532 }
4533 
4534 
4535 // implicit conversion
4536 
4537 inline
4538 sc_fxnum_fast::operator double() const
4539 {
4541  return m_val;
4542 }
4543 
4544 
4545 // explicit conversion to primitive types
4546 
4547 inline
4548 short
4550 {
4552  return static_cast<short>( m_val );
4553 }
4554 
4555 inline
4556 unsigned short
4558 {
4560  return static_cast<unsigned short>( m_val );
4561 }
4562 
4563 inline
4564 int
4566 {
4568  return static_cast<int>( m_val );
4569 }
4570 
4571 inline
4572 int64
4574 {
4576  return static_cast<int64>( m_val );
4577 }
4578 
4579 inline
4580 unsigned int
4582 {
4584  return static_cast<unsigned int>( m_val );
4585 }
4586 
4587 inline
4588 uint64
4590 {
4592  return static_cast<uint64>( m_val );
4593 }
4594 
4595 inline
4596 long
4598 {
4600  return static_cast<long>( m_val );
4601 }
4602 
4603 inline
4604 unsigned long
4606 {
4608  return static_cast<unsigned long>( m_val );
4609 }
4610 
4611 inline
4612 float
4614 {
4616  return static_cast<float>( m_val );
4617 }
4618 
4619 inline
4620 double
4622 {
4624  return m_val;
4625 }
4626 
4627 
4628 // query value
4629 
4630 inline
4631 bool
4633 {
4635  scfx_ieee_double id( m_val );
4636  return ( id.negative() != 0 );
4637 }
4638 
4639 inline
4640 bool
4642 {
4644  scfx_ieee_double id( m_val );
4645  return id.is_zero();
4646 }
4647 
4648 // internal use only;
4649 inline
4650 bool
4652 {
4654  scfx_ieee_double id( m_val );
4655  return ( id.is_normal() || id.is_subnormal() || id.is_zero() );
4656 }
4657 
4658 
4659 inline
4660 bool
4662 {
4663  return m_q_flag;
4664 }
4665 
4666 inline
4667 bool
4669 {
4670  return m_o_flag;
4671 }
4672 
4673 
4674 inline
4675 const sc_fxval_fast
4677 {
4679  return sc_fxval_fast( m_val );
4680 }
4681 
4682 
4683 // query parameters
4684 
4685 inline
4686 int
4688 {
4689  return m_params.wl();
4690 }
4691 
4692 inline
4693 int
4695 {
4696  return m_params.iwl();
4697 }
4698 
4699 inline
4700 sc_q_mode
4702 {
4703  return m_params.q_mode();
4704 }
4705 
4706 inline
4707 sc_o_mode
4709 {
4710  return m_params.o_mode();
4711 }
4712 
4713 inline
4714 int
4716 {
4717  return m_params.n_bits();
4718 }
4719 
4720 
4721 inline
4722 const sc_fxtype_params&
4724 {
4725  return m_params.type_params();
4726 }
4727 
4728 
4729 inline
4730 const sc_fxcast_switch&
4732 {
4733  return m_params.cast_switch();
4734 }
4735 
4736 
4737 // internal use only;
4738 inline
4739 void
4741 {
4742  SC_FXNUM_OBSERVER_READ_( *this );
4743 }
4744 
4745 
4746 inline
4747 ::std::ostream&
4748 operator << ( ::std::ostream& os, const sc_fxnum_fast& a )
4749 {
4750  a.print( os );
4751  return os;
4752 }
4753 
4754 inline
4755 ::std::istream&
4756 operator >> ( ::std::istream& is, sc_fxnum_fast& a )
4757 {
4758  a.scan( is );
4759  return is;
4760 }
4761 
4762 
4763 // ----------------------------------------------------------------------------
4764 // CLASS : sc_fxval
4765 //
4766 // Fixed-point value type; arbitrary precision.
4767 // ----------------------------------------------------------------------------
4768 
4769 // public constructors
4770 
4771 inline
4772 sc_fxval::sc_fxval( const sc_fxnum& a,
4773  sc_fxval_observer* observer_ )
4774 : m_rep( new scfx_rep( *a.get_rep() ) ),
4775  m_observer( observer_ )
4776 {
4779  SC_FXVAL_OBSERVER_WRITE_( *this )
4780 }
4781 
4782 inline
4783 sc_fxval::sc_fxval( const sc_fxnum_fast& a,
4784  sc_fxval_observer* observer_ )
4785 : m_rep( new scfx_rep( a.to_double() ) ),
4786  m_observer( observer_ )
4787 {
4790  SC_FXVAL_OBSERVER_WRITE_( *this )
4791 }
4792 
4793 
4794 // binary operators
4795 
4796 #define DEFN_BIN_OP_T(op,fnc,tp) \
4797 inline \
4798 const sc_fxval \
4799 operator op ( const sc_fxval& a, tp b ) \
4800 { \
4801  SC_FXVAL_OBSERVER_READ_( a ) \
4802  sc_fxval tmp( b ); \
4803  return sc_fxval( sc_dt::fnc ## _scfx_rep( *a.m_rep, *tmp.m_rep ) ); \
4804 } \
4805  \
4806 inline \
4807 const sc_fxval \
4808 operator op ( tp a, const sc_fxval& b ) \
4809 { \
4810  SC_FXVAL_OBSERVER_READ_( b ) \
4811  sc_fxval tmp( a ); \
4812  return sc_fxval( sc_dt::fnc ## _scfx_rep( *tmp.m_rep, *b.m_rep ) ); \
4813 }
4814 
4815 #define DEFN_BIN_OP(op,fnc) \
4816 DEFN_BIN_OP_T(op,fnc,const sc_fxnum_fast&)
4817 
4818 DEFN_BIN_OP(*,mult)
4819 DEFN_BIN_OP(+,add)
4820 DEFN_BIN_OP(-,sub)
4821 //DEFN_BIN_OP(/,div)
4822 DEFN_BIN_OP_T(/,div,const sc_fxnum_fast&)
4823 
4824 #undef DEFN_BIN_OP_T
4825 #undef DEFN_BIN_OP
4826 
4827 
4828 // binary functions
4829 
4830 #define DEFN_BIN_FNC_T(fnc,tp) \
4831 inline \
4832 void \
4833 fnc ( sc_fxval& c, const sc_fxval& a, tp b ) \
4834 { \
4835  SC_FXVAL_OBSERVER_READ_( a ) \
4836  sc_fxval tmp( b ); \
4837  delete c.m_rep; \
4838  c.m_rep = sc_dt::fnc ## _scfx_rep( *a.m_rep, *tmp.m_rep ); \
4839  SC_FXVAL_OBSERVER_WRITE_( c ) \
4840 } \
4841  \
4842 inline \
4843 void \
4844 fnc ( sc_fxval& c, tp a, const sc_fxval& b ) \
4845 { \
4846  SC_FXVAL_OBSERVER_READ_( b ) \
4847  sc_fxval tmp( a ); \
4848  delete c.m_rep; \
4849  c.m_rep = sc_dt::fnc ## _scfx_rep( *tmp.m_rep, *b.m_rep ); \
4850  SC_FXVAL_OBSERVER_WRITE_( c ) \
4851 }
4852 
4853 #define DEFN_BIN_FNC(fnc) \
4854 DEFN_BIN_FNC_T(fnc,const sc_fxnum_fast&)
4855 
4856 DEFN_BIN_FNC(mult)
4857 DEFN_BIN_FNC(div)
4858 DEFN_BIN_FNC(add)
4859 DEFN_BIN_FNC(sub)
4860 
4861 #undef DEFN_BIN_FNC_T
4862 #undef DEFN_BIN_FNC
4863 
4864 
4865 // relational (including equality) operators
4866 
4867 #define DEFN_REL_OP_T(op,ret,tp) \
4868 inline \
4869 bool \
4870 operator op ( const sc_fxval& a, tp b ) \
4871 { \
4872  SC_FXVAL_OBSERVER_READ_( a ) \
4873  sc_fxval tmp( b ); \
4874  int result = sc_dt::cmp_scfx_rep( *a.m_rep, *tmp.m_rep ); \
4875  return ( ret ); \
4876 } \
4877  \
4878 inline \
4879 bool \
4880 operator op ( tp a, const sc_fxval& b ) \
4881 { \
4882  SC_FXVAL_OBSERVER_READ_( b ) \
4883  sc_fxval tmp( a ); \
4884  int result = sc_dt::cmp_scfx_rep( *tmp.m_rep, *b.m_rep ); \
4885  return ( ret ); \
4886 }
4887 
4888 
4889 #define DEFN_REL_OP(op,ret) \
4890 DEFN_REL_OP_T(op,ret,const sc_fxnum_fast&)
4891 
4892 DEFN_REL_OP(<,result < 0)
4893 DEFN_REL_OP(<=,result <= 0)
4894 DEFN_REL_OP(>,result > 0 && result != 2)
4895 DEFN_REL_OP(>=,result >= 0 && result != 2)
4896 DEFN_REL_OP(==,result == 0)
4897 DEFN_REL_OP(!=,result != 0)
4898 
4899 #undef DEFN_REL_OP_T
4900 #undef DEFN_REL_OP
4901 
4902 
4903 // assignment operators
4904 
4905 inline
4906 sc_fxval&
4907 sc_fxval::operator = ( const sc_fxnum& a )
4908 {
4909  *m_rep = *a.get_rep();
4910  SC_FXVAL_OBSERVER_WRITE_( *this )
4911  return *this;
4912 }
4913 
4914 #define DEFN_ASN_OP_T(tp) \
4915 inline \
4916 sc_fxval& \
4917 sc_fxval::operator = ( tp b ) \
4918 { \
4919  sc_fxval tmp( b ); \
4920  *m_rep = *tmp.m_rep; \
4921  SC_FXVAL_OBSERVER_WRITE_( *this ) \
4922  return *this; \
4923 }
4924 
4925 DEFN_ASN_OP_T(const sc_fxnum_fast&)
4926 
4927 #undef DEFN_ASN_OP_T
4928 
4929 
4930 #define DEFN_ASN_OP_T(op,fnc,tp) \
4931 inline \
4932 sc_fxval& \
4933 sc_fxval::operator op ( tp b ) \
4934 { \
4935  SC_FXVAL_OBSERVER_READ_( *this ) \
4936  sc_fxval tmp( b ); \
4937  scfx_rep* new_rep = sc_dt::fnc ## _scfx_rep( *m_rep, *tmp.m_rep ); \
4938  delete m_rep; \
4939  m_rep = new_rep; \
4940  SC_FXVAL_OBSERVER_WRITE_( *this ) \
4941  return *this; \
4942 }
4943 
4944 #define DEFN_ASN_OP(op,fnc) \
4945 inline \
4946 sc_fxval& \
4947 sc_fxval::operator op ( const sc_fxnum& b ) \
4948 { \
4949  SC_FXVAL_OBSERVER_READ_( *this ) \
4950  scfx_rep* new_rep = sc_dt::fnc ## _scfx_rep( *m_rep, *b.get_rep() ); \
4951  delete m_rep; \
4952  m_rep = new_rep; \
4953  SC_FXVAL_OBSERVER_WRITE_( *this ) \
4954  return *this; \
4955 } \
4956  \
4957 DEFN_ASN_OP_T(op,fnc,const sc_fxnum_fast&)
4958 
4959 DEFN_ASN_OP(*=,mult)
4960 DEFN_ASN_OP(/=,div)
4961 DEFN_ASN_OP(+=,add)
4962 DEFN_ASN_OP(-=,sub)
4963 
4964 #undef DEFN_ASN_OP_T
4965 #undef DEFN_ASN_OP
4966 
4967 
4968 // ----------------------------------------------------------------------------
4969 // CLASS : sc_fxval_fast
4970 //
4971 // Fixed-point value types; limited precision.
4972 // ----------------------------------------------------------------------------
4973 
4974 // public constructors
4975 
4976 inline
4977 sc_fxval_fast::sc_fxval_fast( const sc_fxnum& a,
4978  sc_fxval_fast_observer* observer_ )
4979 : m_val( a.to_double() ),
4980  m_observer( observer_ )
4981 {
4985 }
4986 
4987 inline
4988 sc_fxval_fast::sc_fxval_fast( const sc_fxnum_fast& a,
4989  sc_fxval_fast_observer* observer_ )
4990 : m_val( a.get_val() ),
4991  m_observer( observer_ )
4992 {
4996 }
4997 
4998 
4999 // binary functions
5000 
5001 #define DEFN_BIN_FNC_T(fnc,op,tp) \
5002 inline \
5003 void \
5004 fnc ( sc_fxval_fast& c, const sc_fxval_fast& a, tp b ) \
5005 { \
5006  SC_FXVAL_FAST_OBSERVER_READ_( a ) \
5007  sc_fxval_fast tmp( b ); \
5008  c.m_val = a.m_val op tmp.m_val; \
5009  SC_FXVAL_FAST_OBSERVER_WRITE_( c ) \
5010 } \
5011  \
5012 inline \
5013 void \
5014 fnc ( sc_fxval_fast& c, tp a, const sc_fxval_fast& b ) \
5015 { \
5016  SC_FXVAL_FAST_OBSERVER_READ_( b ) \
5017  sc_fxval_fast tmp( a ); \
5018  c.m_val = tmp.m_val op b.m_val; \
5019  SC_FXVAL_FAST_OBSERVER_WRITE_( c ) \
5020 }
5021 
5022 #define DEFN_BIN_FNC(fnc,op) \
5023 DEFN_BIN_FNC_T(fnc,op,const sc_fxval&) \
5024 DEFN_BIN_FNC_T(fnc,op,const sc_fxnum&)
5025 
5026 DEFN_BIN_FNC(mult,*)
5027 DEFN_BIN_FNC(div,/)
5028 DEFN_BIN_FNC(add,+)
5029 DEFN_BIN_FNC(sub,-)
5030 
5031 #undef DEFN_BIN_FNC_T
5032 #undef DEFN_BIN_FNC
5033 
5034 
5035 // assignment operators
5036 
5037 inline
5038 sc_fxval_fast&
5039 sc_fxval_fast::operator = ( const sc_fxnum_fast& a )
5040 {
5041  m_val = a.get_val();
5043  return *this;
5044 }
5045 
5046 #define DEFN_ASN_OP_T(tp) \
5047 inline \
5048 sc_fxval_fast& \
5049 sc_fxval_fast::operator = ( tp a ) \
5050 { \
5051  sc_fxval_fast tmp( a ); \
5052  m_val = tmp.m_val; \
5053  SC_FXVAL_FAST_OBSERVER_WRITE_( *this ) \
5054  return *this; \
5055 }
5056 
5057 DEFN_ASN_OP_T(const sc_fxnum&)
5058 
5059 #undef DEFN_ASN_OP_T
5060 
5061 
5062 #define DEFN_ASN_OP_T(op,tp) \
5063 inline \
5064 sc_fxval_fast& \
5065 sc_fxval_fast::operator op ( tp b ) \
5066 { \
5067  SC_FXVAL_FAST_OBSERVER_READ_( *this ) \
5068  sc_fxval_fast tmp( b ); \
5069  m_val op tmp.m_val; \
5070  SC_FXVAL_FAST_OBSERVER_WRITE_( *this ) \
5071  return *this; \
5072 }
5073 
5074 #define DEFN_ASN_OP(op) \
5075 inline \
5076 sc_fxval_fast& \
5077 sc_fxval_fast::operator op ( const sc_fxnum_fast& b ) \
5078 { \
5079  SC_FXVAL_FAST_OBSERVER_READ_( *this ) \
5080  m_val op b.get_val(); \
5081  SC_FXVAL_FAST_OBSERVER_WRITE_( *this ) \
5082  return *this; \
5083 } \
5084  \
5085 DEFN_ASN_OP_T(op,const sc_fxnum&)
5086 
5087 DEFN_ASN_OP(*=)
5088 DEFN_ASN_OP(/=)
5089 DEFN_ASN_OP(+=)
5090 DEFN_ASN_OP(-=)
5091 
5092 #undef DEFN_ASN_OP_T
5093 #undef DEFN_ASN_OP
5094 
5095 } // namespace sc_dt
5096 
5097 
5098 #endif
5099 
5100 // Taf!
#define DEFN_ASN_OP_T(op, tp)
Definition: sc_bit.h:174
int64 to_int64() const
Definition: sc_proxy.h:486
bool nand_reduce() const
long to_long() const
Definition: sc_fxnum.h:3478
#define SC_FXNUM_OBSERVER_DESTRUCT_(object)
float to_float() const
Definition: sc_fxnum.h:4613
int wl() const
Definition: scfx_params.h:158
#define SC_FXNUM_FAST_OBSERVER_CONSTRUCT_(object)
int iwl() const
Definition: sc_fxnum.h:4694
sc_fxnum_fast & operator--()
Definition: sc_fxnum.h:4413
sc_fxnum_fast_observer * observer() const
Definition: sc_fxnum.h:3685
bool nor_reduce() const
int length() const
Definition: sc_fxnum.h:2067
void dump(::std::ostream &=::std::cout) const
friend void rshift(sc_fxval_fast &, const sc_fxnum_fast &, int)
Definition: sc_fxnum.h:4113
bool set_slice(int, int, const sc_bv_base &)
friend void lshift(sc_fxval_fast &, const sc_fxnum_fast &, int)
Definition: sc_fxnum.h:4105
friend const sc_fxval_fast operator/(const sc_fxnum_fast &, const sc_fxnum_fast &)
Definition: sc_fxnum.h:3908
friend void lshift(sc_fxval &, const sc_fxnum &, int)
Definition: sc_fxnum.h:2986
uint64 to_uint64() const
Definition: sc_fxnum.h:3470
const sc_fxtype_params & type_params() const
Definition: sc_fxnum.h:4723
DECL_BIN_OP_T(/, int64) DECL_BIN_OP_T(/
int64 to_int64() const
Definition: sc_fxnum.h:3454
void rshift(sc_fxval &c, const sc_fxnum &a, int b)
Definition: sc_fxnum.h:2994
#define DECL_ASN_OP(op)
Definition: sc_fix.h:477
bool is_zero() const
Definition: sc_fxnum.h:4641
unsigned int to_uint() const
Definition: sc_fxnum.h:3462
int length() const
Definition: sc_bv_base.h:228
sc_numrep
Definition: sc_nbdefs.h:91
long to_long() const
Definition: sc_fxnum.h:2113
double to_double() const
Definition: sc_fxnum.h:3502
friend class sc_fxnum_fast
Definition: sc_fxnum.h:401
sc_fxnum & operator++()
Definition: sc_fxnum.h:3290
int64_t int64
Definition: sc_nbdefs.h:182
bool overflow_flag() const
Definition: sc_fxnum.h:4668
const std::string to_hex() const
void set_val(double)
Definition: sc_fxval.h:1633
void unlock_observer(sc_fxnum_fast_observer *) const
const std::string to_oct() const
int wl() const
Definition: sc_fxnum.h:4687
int iwl() const
Definition: scfx_params.h:165
bool get_slice(int, int, const scfx_params &, sc_bv_base &) const
int64 to_int64() const
Definition: sc_fxnum.h:4573
const std::string to_string() const
Definition: sc_proxy.h:1386
bool is_neg() const
Definition: sc_fxnum.h:3513
scfx_rep * rsh_scfx_rep(const scfx_rep &, int)
Definition: scfx_rep.h:432
const scfx_rep * get_rep() const
Definition: sc_fxval.h:861
const sc_fxnum_fast_subref operator()() const
Definition: sc_fxnum.h:4508
bool clear(int, const scfx_params &)
sc_fxnum & operator--()
Definition: sc_fxnum.h:3298
sc_q_mode q_mode() const
Definition: sc_fxnum.h:3578
#define SC_FXVAL_FAST_OBSERVER_DEFAULT_
friend class sc_fxval_fast
Definition: sc_fxnum.h:990
bool is_neg() const
Definition: sc_fxnum.h:4632
const std::string to_string() const
Definition: sc_fxnum.h:2151
#define DECL_CTOR_T(tp)
Definition: sc_fxnum.h:1015
#define SC_FXNUM_OBSERVER_DEFAULT_
const scfx_rep * get_rep() const
Definition: sc_fxnum.h:2657
const sc_fxcast_switch & cast_switch() const
Definition: sc_fxnum.h:4731
uint64 to_uint64() const
Definition: sc_fxnum.h:2104
const sc_fxval operator+() const
Definition: sc_fxnum.h:2676
#define SC_FXVAL_OBSERVER_DEFAULT_
sc_fxnum_fast & operator++()
Definition: sc_fxnum.h:4402
bool get_bit(int) const
scfx_rep * lsh_scfx_rep(const scfx_rep &, int)
Definition: scfx_rep.h:423
const sc_fxnum_bitref bit(int) const
Definition: sc_fxnum.h:3326
void print(::std::ostream &=::std::cout) const
bool set_bit(int, bool)
Definition: sc_fxnum.h:3636
unsigned int to_uint() const
Definition: sc_fxnum.h:2095
sc_q_mode q_mode() const
Definition: sc_fxnum.h:4701
sc_o_mode o_mode() const
Definition: sc_fxnum.h:4708
double to_double() const
Definition: sc_fxnum.h:4621
double to_double() const
#define DECL_BIN_FNC(fnc)
Definition: sc_fxnum.h:1147
scfx_rep * neg_scfx_rep(const scfx_rep &)
Definition: scfx_rep.h:405
uint64 const sc_uint_base int b
Definition: sc_fxval.h:1003
void print(::std::ostream &=::std::cout) const
const std::string to_string() const
Definition: sc_fxnum.h:2502
#define DEFN_ASN_OP(op)
Definition: sc_bit.h:177
friend void rshift(sc_fxval &, const sc_fxnum &, int)
Definition: sc_fxnum.h:2994
void observer_read() const
Definition: sc_fxnum.h:4740
const sc_fxnum_subref operator()() const
Definition: sc_fxnum.h:3389
#define DECL_ASN_OP_T(op, tp)
Definition: sc_fix.h:462
short to_short() const
Definition: sc_fxnum.h:3430
const sc_fxval_fast operator-() const
Definition: sc_fxnum.h:3798
long to_long() const
Definition: sc_fxnum.h:4597
int iwl() const
Definition: sc_fxnum.h:3571
sc_fxnum_fast_observer * lock_observer() const
friend class sc_core::vcd_sc_fxnum_fast_trace
Definition: sc_fxnum.h:997
bool set_bit(int, bool)
#define SC_FXNUM_OBSERVER_READ_(object)
bool is_normal() const
Definition: sc_fxnum.h:3530
unsigned int to_uint() const
Definition: sc_proxy.h:492
unsigned short to_ushort() const
Definition: sc_fxnum.h:3438
const sc_fxcast_switch & cast_switch() const
Definition: sc_fxnum.h:3608
sc_enc
Definition: sc_fxdefs.h:63
const std::string to_bin() const
#define SC_FXNUM_FAST_OBSERVER_WRITE_(object)
#define DEFN_BIN_OP(ret, op)
Definition: sc_logic.h:325
void scan(::std::istream &=::std::cin)
friend class sc_fxnum_bitref
Definition: sc_fxnum.h:565
void scan(::std::istream &=::std::cin)
#define SC_FXNUM_OBSERVER_CONSTRUCT_(object)
bool set_slice(int, int, const sc_bv_base &)
Definition: sc_fxnum.h:3654
#define SC_ERROR_IF_(cnd, id)
Definition: sc_fxdefs.h:257
#define SC_FXVAL_OBSERVER_WRITE_(object)
sc_fxnum_observer * observer() const
Definition: sc_fxnum.h:2561
#define SC_FXVAL_FAST_OBSERVER_WRITE_(object)
friend class sc_fxnum_fast_bitref
Definition: sc_fxnum.h:994
sc_fxval(scfx_rep *)
Definition: sc_fxval.h:782
const sc_fxval operator-() const
Definition: sc_fxnum.h:2668
sc_o_mode
Definition: sc_fxdefs.h:116
unsigned int to_uint() const
Definition: sc_fxnum.h:2446
bool overflow_flag() const
Definition: sc_fxnum.h:3545
int wl() const
Definition: sc_fxnum.h:3564
bool is_zero() const
Definition: sc_fxnum.h:3521
uint64 to_uint64() const
Definition: sc_fxnum.h:4589
friend const sc_fxval operator<<(const sc_fxnum &, int)
Definition: sc_fxnum.h:2831
unsigned int to_uint() const
Definition: sc_fxnum.h:4581
bool set_slice(int, int, const scfx_params &, const sc_bv_base &)
friend class sc_fxnum_subref
Definition: sc_fxnum.h:566
#define SC_FXNUM_FAST_OBSERVER_DESTRUCT_(object)
const sc_fxval value() const
Definition: sc_fxnum.h:3553
inline::std::istream & operator>>(::std::istream &is, sc_bit &a)
Definition: sc_bit.h:394
friend class sc_fxval
Definition: sc_fxnum.h:563
int to_int() const
Definition: sc_proxy.h:489
const sc_fxnum_fast_subref range() const
Definition: sc_fxnum.h:4522
unsigned long to_ulong() const
Definition: sc_fxnum.h:4605
sc_o_mode o_mode() const
Definition: scfx_params.h:186
friend class sc_core::wif_sc_fxnum_fast_trace
Definition: sc_fxnum.h:998
void print(::std::ostream &=::std::cout) const
const T sc_min(const T &a, const T &b)
Definition: sc_macros.h:37
bool is_normal() const
Definition: scfx_rep.h:485
const std::string to_oct() const
int fwl() const
Definition: scfx_params.h:172
uint64_t uint64
Definition: sc_nbdefs.h:183
bool set(int, const scfx_params &)
unsigned long to_ulong() const
Definition: sc_proxy.h:498
#define SC_FXNUM_FAST_OBSERVER_READ_(object)
const sc_fxcast_switch & cast_switch() const
Definition: scfx_params.h:148
const sc_fxnum_fast_bitref bit(int) const
Definition: sc_fxnum.h:4444
unsigned short to_ushort() const
Definition: sc_fxnum.h:4557
scfx_rep * div_scfx_rep(const scfx_rep &, const scfx_rep &, int max_wl=SC_DEFAULT_DIV_WL_)
#define DEFN_RED_FNC(fnc)
Definition: sc_fxnum.h:2394
unsigned long to_ulong() const
Definition: sc_fxnum.h:2122
const sc_fxtype_params & type_params() const
Definition: scfx_params.h:134
#define DEFN_CTOR_T_A(tp)
Definition: sc_fxnum.h:3746
#define DEFN_CTOR_T_D(tp)
Definition: sc_fxnum.h:2617
#define DECL_ASN_OP_A(op)
Definition: sc_fxnum.h:452
bool is_zero() const
Definition: scfx_rep.h:455
void print(::std::ostream &=::std::cout) const
void lshift(sc_fxval &c, const sc_fxnum &a, int b)
Definition: sc_fxnum.h:2986
void dump(::std::ostream &=::std::cout) const
#define DEFN_BIN_FNC(fnc)
Definition: sc_fxnum.h:5022
void dump(::std::ostream &=::std::cout) const
void scan(::std::istream &=::std::cin)
const sc_fxnum_bitref operator[](int) const
Definition: sc_fxnum.h:3309
void scan(::std::istream &=::std::cin)
int to_int() const
Definition: sc_fxnum.h:4565
bool xor_reduce() const
const sc_fxtype_params & type_params() const
Definition: sc_fxnum.h:3600
friend void neg(sc_fxval_fast &, const sc_fxnum_fast &)
Definition: sc_fxnum.h:3817
sc_o_mode o_mode() const
Definition: sc_fxnum.h:3585
friend const sc_fxval operator>>(const sc_fxnum &, int)
Definition: sc_fxnum.h:2839
const sc_fxnum_subref range() const
Definition: sc_fxnum.h:3403
void observer_read() const
Definition: sc_fxnum.h:3617
void set_rep(scfx_rep *)
Definition: sc_fxval.h:870
float to_float() const
Definition: sc_fxnum.h:3494
const std::string to_string() const
friend class sc_core::wif_sc_fxnum_trace
Definition: sc_fxnum.h:571
int to_int() const
Definition: sc_fxnum.h:3446
bool is_normal() const
Definition: sc_fxnum.h:4651
bool and_reduce() const
sc_q_mode q_mode() const
Definition: scfx_params.h:179
const sc_fxval_fast operator+() const
Definition: sc_fxnum.h:3806
uint64 to_uint64() const
Definition: sc_fxnum.h:2455
int n_bits() const
Definition: scfx_params.h:193
int n_bits() const
Definition: sc_fxnum.h:3592
const sc_fxval_fast value() const
Definition: sc_fxnum.h:4676
const sc_fxnum_fast_bitref operator[](int) const
Definition: sc_fxnum.h:4427
#define DEFN_REL_OP(op)
Definition: sc_fxnum.h:4889
#define SC_FXNUM_FAST_OBSERVER_DEFAULT_
#define SC_FXNUM_OBSERVER_WRITE_(object)
void unlock_observer(sc_fxnum_observer *) const
sc_fxnum_observer * lock_observer() const
friend void neg(sc_fxval &, const sc_fxnum &)
Definition: sc_fxnum.h:2687
bool quantization_flag() const
Definition: sc_fxnum.h:4661
void print(::std::ostream &=::std::cout) const
int to_int() const
Definition: sc_fxnum.h:2077
#define DECL_REL_OP(op)
Definition: sc_fxnum.h:1197
double scfx_pow2(int exp)
Definition: scfx_ieee.h:643
#define DEFN_CTOR_T_B(tp)
Definition: sc_fxnum.h:3747
void neg(sc_fxval &c, const sc_fxnum &a)
Definition: sc_fxnum.h:2687
const std::string to_string() const
void print(::std::ostream &=::std::cout) const
bool get_bit(int) const
inline::std::ostream & operator<<(::std::ostream &os, const sc_bit &a)
Definition: sc_bit.h:386
int64 to_int64() const
Definition: sc_fxnum.h:2086
unsigned long to_ulong() const
Definition: sc_fxnum.h:3486
double get_val() const
Definition: sc_fxval.h:1624
int n_bits() const
Definition: sc_fxnum.h:4715
const std::string to_dec() const
short to_short() const
Definition: sc_fxnum.h:4549
friend const sc_fxval_fast operator>>(const sc_fxnum_fast &, int)
Definition: sc_fxnum.h:3963
friend class sc_core::vcd_sc_fxnum_trace
Definition: sc_fxnum.h:570
sc_q_mode
Definition: sc_fxdefs.h:87
bool or_reduce() const
#define DECL_BIN_OP(op, dummy)
Definition: sc_fxnum.h:1082
bool is_neg() const
Definition: scfx_rep.h:448
const std::string to_hex() const
const std::string to_bin() const
bool get_slice(int, int, sc_bv_base &) const
Definition: sc_fxnum.h:3647
#define DECL_BIN_OP_T(op, tp)
Definition: sc_fxnum.h:1066
bool get_bit(int) const
Definition: sc_fxnum.h:3626
const std::string to_dec() const
#define DEFN_CTOR_T_C(tp)
Definition: sc_fxnum.h:3748
sc_fxval_fast(sc_fxval_fast_observer *=0)
Definition: sc_fxval.h:1553
void dump(::std::ostream &=::std::cout) const
bool get_slice(int, int, sc_bv_base &) const
void scan(::std::istream &=::std::cin)
bool quantization_flag() const
Definition: sc_fxnum.h:3538
const T sc_max(const T &a, const T &b)
Definition: sc_macros.h:45
int64 to_int64() const
Definition: sc_fxnum.h:2437
void dump(::std::ostream &=::std::cout) const
void dump(::std::ostream &=::std::cout) const
#define SC_FXVAL_FAST_OBSERVER_CONSTRUCT_(object)
friend class sc_fxnum_fast_subref
Definition: sc_fxnum.h:995
double get_val() const
Definition: sc_fxnum.h:3787
#define SC_FXVAL_OBSERVER_CONSTRUCT_(object)
void scan(::std::istream &=::std::cin)
DEFN_BIN_OP_T(/, div, int64) DEFN_BIN_OP_T(/
long to_long() const
Definition: sc_proxy.h:495
bool xnor_reduce() const
const sc_fxval operator/(const sc_fxnum &a, const sc_fxnum &b)
Definition: sc_fxnum.h:2782
unsigned long to_ulong() const
Definition: sc_fxnum.h:2473
uint64 to_uint64() const
Definition: sc_proxy.h:1470