/***************************************************************************** Licensed to Accellera Systems Initiative Inc. (Accellera) under one or more contributor license agreements. See the NOTICE file distributed with this work for additional information regarding copyright ownership. Accellera licenses this file to you under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. *****************************************************************************/ /***************************************************************************** sc_fxval.h - Original Author: Martin Janssen, Synopsys, Inc. *****************************************************************************/ /***************************************************************************** MODIFICATION LOG - modifiers, enter your name, affiliation, date and changes you are making here. Name, Affiliation, Date: Description of Modification: *****************************************************************************/ // $Log: sc_fxval.h,v $ // Revision 1.3 2011/01/19 18:57:40 acg // Andy Goodrich: changes for IEEE_1666_2011. // // Revision 1.2 2010/12/07 20:09:08 acg // Andy Goodrich: Philipp Hartmann's constructor disambiguation fix // // Revision 1.1.1.1 2006/12/15 20:20:04 acg // SystemC 2.3 // // Revision 1.3 2006/01/13 18:53:58 acg // Andy Goodrich: added $Log command so that CVS comments are reproduced in // the source. // #ifndef __SYSTEMC_EXT_DT_FX_SC_FXVAL_HH__ #define __SYSTEMC_EXT_DT_FX_SC_FXVAL_HH__ #include #include "../int/sc_int_base.hh" #include "../int/sc_signed.hh" #include "../int/sc_uint_base.hh" #include "../int/sc_unsigned.hh" #include "sc_fxval_observer.hh" #include "scfx_rep.hh" #define SCFX_EXPLICIT_ explicit #define SCFX_EXPLICIT_OTHER_ explicit namespace sc_dt { // classes defined in this module class sc_fxval; class sc_fxval_fast; // forward class declarations class sc_fxnum; class sc_fxnum_fast; // ---------------------------------------------------------------------------- // CLASS : sc_fxval // // Fixed-point value type; arbitrary precision. // ---------------------------------------------------------------------------- class sc_fxval { friend class sc_fxnum; protected: sc_fxval_observer* observer() const; public: // internal use only; explicit sc_fxval(scfx_rep *); explicit sc_fxval(sc_fxval_observer * =0); explicit sc_fxval(int, sc_fxval_observer * =0); explicit sc_fxval(unsigned int, sc_fxval_observer * =0); explicit sc_fxval(long, sc_fxval_observer * =0); explicit sc_fxval(unsigned long, sc_fxval_observer * =0); explicit sc_fxval(float, sc_fxval_observer* = 0); explicit sc_fxval(double, sc_fxval_observer* = 0); explicit sc_fxval(const char *, sc_fxval_observer* = 0); sc_fxval(const sc_fxval &, sc_fxval_observer* = 0); sc_fxval(const sc_fxval_fast &, sc_fxval_observer* = 0); sc_fxval(const sc_fxnum &, sc_fxval_observer* = 0); sc_fxval(const sc_fxnum_fast &, sc_fxval_observer* = 0); explicit sc_fxval(int64, sc_fxval_observer* = 0); explicit sc_fxval(uint64, sc_fxval_observer* = 0); explicit sc_fxval(const sc_int_base &, sc_fxval_observer* = 0); explicit sc_fxval(const sc_uint_base &, sc_fxval_observer* = 0); explicit sc_fxval(const sc_signed &, sc_fxval_observer* = 0); explicit sc_fxval(const sc_unsigned &, sc_fxval_observer* = 0); ~sc_fxval(); // internal use only; const scfx_rep *get_rep() const; void set_rep(scfx_rep *); // unary operators const sc_fxval operator - () const; const sc_fxval &operator + () const; // unary functions friend void neg(sc_fxval &, const sc_fxval &); // binary operators #define DECL_BIN_OP_T(op,tp) \ friend const sc_fxval operator op (const sc_fxval &, tp); \ friend const sc_fxval operator op (tp, const sc_fxval &); #define DECL_BIN_OP_OTHER(op) \ DECL_BIN_OP_T(op, int64) \ DECL_BIN_OP_T(op, uint64) \ DECL_BIN_OP_T(op, const sc_int_base &) \ DECL_BIN_OP_T(op, const sc_uint_base &) \ DECL_BIN_OP_T(op, const sc_signed &) \ DECL_BIN_OP_T(op, const sc_unsigned &) #define DECL_BIN_OP(op, dummy) \ friend const sc_fxval operator op (const sc_fxval &, const sc_fxval &); \ DECL_BIN_OP_T(op, int) \ DECL_BIN_OP_T(op, unsigned int) \ DECL_BIN_OP_T(op, long) \ DECL_BIN_OP_T(op, unsigned long) \ DECL_BIN_OP_T(op, float) \ DECL_BIN_OP_T(op, double) \ DECL_BIN_OP_T(op, const char *) \ DECL_BIN_OP_T(op, const sc_fxval_fast &) \ DECL_BIN_OP_T(op, const sc_fxnum_fast &) \ DECL_BIN_OP_OTHER(op) DECL_BIN_OP(*, mult) DECL_BIN_OP(+, add) DECL_BIN_OP(-, sub) // declaration below doesn't compile with BCB5 (E2206) // DECL_BIN_OP(/, div) // previous macro expanded friend const sc_fxval operator / (const sc_fxval &, const sc_fxval &); DECL_BIN_OP_T(/, int) DECL_BIN_OP_T(/, unsigned int) DECL_BIN_OP_T(/, long) DECL_BIN_OP_T(/, unsigned long) DECL_BIN_OP_T(/, float) DECL_BIN_OP_T(/, double) DECL_BIN_OP_T(/, const char *) DECL_BIN_OP_T(/, const sc_fxval_fast &) DECL_BIN_OP_T(/, const sc_fxnum_fast &) // DECL_BIN_OP_OTHER(/) DECL_BIN_OP_T(/, int64) DECL_BIN_OP_T(/, uint64) DECL_BIN_OP_T(/, const sc_int_base &) DECL_BIN_OP_T(/, const sc_uint_base &) DECL_BIN_OP_T(/, const sc_signed &) DECL_BIN_OP_T(/, const sc_unsigned &) #undef DECL_BIN_OP_T #undef DECL_BIN_OP_OTHER #undef DECL_BIN_OP friend const sc_fxval operator << (const sc_fxval &, int); friend const sc_fxval operator >> (const sc_fxval &, int); // binary functions #define DECL_BIN_FNC_T(fnc, tp) \ friend void fnc (sc_fxval &, const sc_fxval &, tp); \ friend void fnc (sc_fxval &, tp, const sc_fxval &); #define DECL_BIN_FNC_OTHER(fnc) \ DECL_BIN_FNC_T(fnc, int64) \ DECL_BIN_FNC_T(fnc, uint64) \ DECL_BIN_FNC_T(fnc, const sc_int_base &) \ DECL_BIN_FNC_T(fnc, const sc_uint_base &) \ DECL_BIN_FNC_T(fnc, const sc_signed &) \ DECL_BIN_FNC_T(fnc, const sc_unsigned &) #define DECL_BIN_FNC(fnc) \ friend void fnc (sc_fxval &, const sc_fxval &, const sc_fxval &); \ DECL_BIN_FNC_T(fnc, int) \ DECL_BIN_FNC_T(fnc, unsigned int) \ DECL_BIN_FNC_T(fnc, long) \ DECL_BIN_FNC_T(fnc, unsigned long) \ DECL_BIN_FNC_T(fnc, float) \ DECL_BIN_FNC_T(fnc, double) \ DECL_BIN_FNC_T(fnc, const char *) \ DECL_BIN_FNC_T(fnc, const sc_fxval_fast &) \ DECL_BIN_FNC_T(fnc, const sc_fxnum_fast &) \ DECL_BIN_FNC_OTHER(fnc) DECL_BIN_FNC(mult) DECL_BIN_FNC(div) DECL_BIN_FNC(add) DECL_BIN_FNC(sub) #undef DECL_BIN_FNC_T #undef DECL_BIN_FNC_OTHER #undef DECL_BIN_FNC friend void lshift(sc_fxval &, const sc_fxval &, int); friend void rshift(sc_fxval &, const sc_fxval &, int); // relational (including equality) operators #define DECL_REL_OP_T(op, tp) \ friend bool operator op (const sc_fxval &, tp); \ friend bool operator op (tp, const sc_fxval &); #define DECL_REL_OP_OTHER(op) \ DECL_REL_OP_T(op, int64) \ DECL_REL_OP_T(op, uint64) \ DECL_REL_OP_T(op, const sc_int_base &) \ DECL_REL_OP_T(op, const sc_uint_base &) \ DECL_REL_OP_T(op, const sc_signed &) \ DECL_REL_OP_T(op, const sc_unsigned &) #define DECL_REL_OP(op) \ friend bool operator op (const sc_fxval &, const sc_fxval &); \ DECL_REL_OP_T(op, int) \ DECL_REL_OP_T(op, unsigned int) \ DECL_REL_OP_T(op, long) \ DECL_REL_OP_T(op, unsigned long) \ DECL_REL_OP_T(op, float) \ DECL_REL_OP_T(op, double) \ DECL_REL_OP_T(op, const char *) \ DECL_REL_OP_T(op, const sc_fxval_fast &) \ DECL_REL_OP_T(op, const sc_fxnum_fast &) \ DECL_REL_OP_OTHER(op) DECL_REL_OP(<) DECL_REL_OP(<=) DECL_REL_OP(>) DECL_REL_OP(>=) DECL_REL_OP(==) DECL_REL_OP(!=) #undef DECL_REL_OP_T #undef DECL_REL_OP_OTHER #undef DECL_REL_OP // assignment operators #define DECL_ASN_OP_T(op, tp) sc_fxval &operator op(tp); #define DECL_ASN_OP_OTHER(op) \ DECL_ASN_OP_T(op, int64) \ DECL_ASN_OP_T(op, uint64) \ DECL_ASN_OP_T(op, const sc_int_base &) \ DECL_ASN_OP_T(op, const sc_uint_base &) \ DECL_ASN_OP_T(op, const sc_signed &) \ DECL_ASN_OP_T(op, const sc_unsigned &) #define DECL_ASN_OP(op) \ DECL_ASN_OP_T(op, int) \ DECL_ASN_OP_T(op, unsigned int) \ DECL_ASN_OP_T(op, long) \ DECL_ASN_OP_T(op, unsigned long) \ DECL_ASN_OP_T(op, float) \ DECL_ASN_OP_T(op, double) \ DECL_ASN_OP_T(op, const char *) \ DECL_ASN_OP_T(op, const sc_fxval &) \ DECL_ASN_OP_T(op, const sc_fxval_fast &) \ DECL_ASN_OP_T(op, const sc_fxnum &) \ DECL_ASN_OP_T(op, const sc_fxnum_fast &) \ DECL_ASN_OP_OTHER(op) DECL_ASN_OP(=) DECL_ASN_OP(*=) DECL_ASN_OP(/=) DECL_ASN_OP(+=) DECL_ASN_OP(-=) DECL_ASN_OP_T(<<=, int) DECL_ASN_OP_T(>>=, int) #undef DECL_ASN_OP_T #undef DECL_ASN_OP_OTHER #undef DECL_ASN_OP // auto-increment and auto-decrement const sc_fxval operator ++ (int); const sc_fxval operator -- (int); sc_fxval & operator ++ (); sc_fxval & operator -- (); // implicit conversion operator double() const; // necessary evil! // explicit conversion to primitive types short to_short() const; unsigned short to_ushort() const; int to_int() const; unsigned int to_uint() const; long to_long() const; unsigned long to_ulong() const; int64 to_int64() const; uint64 to_uint64() const; float to_float() const; double to_double() const; // explicit conversion to character string const std::string to_string() const; const std::string to_string(sc_numrep) const; const std::string to_string(sc_numrep, bool) const; const std::string to_string(sc_fmt) const; const std::string to_string(sc_numrep, sc_fmt) const; const std::string to_string(sc_numrep, bool, sc_fmt) const; const std::string to_dec() const; const std::string to_bin() const; const std::string to_oct() const; const std::string to_hex() const; // query value bool is_neg() const; bool is_zero() const; bool is_nan() const; bool is_inf() const; bool is_normal() const; bool rounding_flag() const; // print or dump content void print(::std::ostream & =::std::cout) const; void scan(::std::istream & =::std::cin); void dump(::std::ostream & =::std::cout) const; // internal use only; bool get_bit(int) const; protected: sc_fxval_observer *lock_observer() const; void unlock_observer(sc_fxval_observer *) const; void get_type(int &, int &, sc_enc &) const; const sc_fxval quantization(const scfx_params &, bool &) const; const sc_fxval overflow(const scfx_params &, bool &) const; private: scfx_rep * m_rep; mutable sc_fxval_observer *m_observer; }; // ---------------------------------------------------------------------------- // CLASS : sc_fxval_fast // // Fixed-point value type; limited precision. // ---------------------------------------------------------------------------- class sc_fxval_fast { friend class sc_fxnum_fast; protected: sc_fxval_fast_observer *observer() const; public: explicit sc_fxval_fast(sc_fxval_fast_observer * =0); explicit sc_fxval_fast(int, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(unsigned int, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(long, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(unsigned long, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(float, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(double, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(const char *, sc_fxval_fast_observer * =0); sc_fxval_fast(const sc_fxval &, sc_fxval_fast_observer * =0); sc_fxval_fast(const sc_fxval_fast &, sc_fxval_fast_observer * =0); sc_fxval_fast(const sc_fxnum &, sc_fxval_fast_observer * =0); sc_fxval_fast(const sc_fxnum_fast &, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(int64, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(uint64, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(const sc_int_base &, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(const sc_uint_base &, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(const sc_signed &, sc_fxval_fast_observer * =0); explicit sc_fxval_fast(const sc_unsigned &, sc_fxval_fast_observer * =0); ~sc_fxval_fast(); // internal use only; double get_val() const; void set_val(double); // unary operators const sc_fxval_fast operator - () const; const sc_fxval_fast & operator + () const; // unary functions friend void neg(sc_fxval_fast &, const sc_fxval_fast &); // binary operators #define DECL_BIN_OP_T(op, tp) \ friend const sc_fxval_fast operator op (const sc_fxval_fast &, tp); \ friend const sc_fxval_fast operator op (tp, const sc_fxval_fast &); #define DECL_BIN_OP_OTHER(op) \ DECL_BIN_OP_T(op, int64) \ DECL_BIN_OP_T(op, uint64) \ DECL_BIN_OP_T(op, const sc_int_base &) \ DECL_BIN_OP_T(op, const sc_uint_base &) \ DECL_BIN_OP_T(op, const sc_signed &) \ DECL_BIN_OP_T(op, const sc_unsigned &) #define DECL_BIN_OP(op, dummy) \ friend const sc_fxval_fast operator op (const sc_fxval_fast &, \ const sc_fxval_fast &); \ DECL_BIN_OP_T(op, int) \ DECL_BIN_OP_T(op, unsigned int) \ DECL_BIN_OP_T(op, long) \ DECL_BIN_OP_T(op, unsigned long) \ DECL_BIN_OP_T(op, float) \ DECL_BIN_OP_T(op, double) \ DECL_BIN_OP_T(op, const char *) \ DECL_BIN_OP_OTHER(op) DECL_BIN_OP(*, mult) DECL_BIN_OP(+, add) DECL_BIN_OP(-, sub) // don't use macro // DECL_BIN_OP(/, div) friend const sc_fxval_fast operator / (const sc_fxval_fast &, const sc_fxval_fast &); DECL_BIN_OP_T(/, int) DECL_BIN_OP_T(/, unsigned int) DECL_BIN_OP_T(/, long) DECL_BIN_OP_T(/, unsigned long) DECL_BIN_OP_T(/, float) DECL_BIN_OP_T(/, double) DECL_BIN_OP_T(/, const char *) // DECL_BIN_OP_OTHER(/) DECL_BIN_OP_T(/, int64) \ DECL_BIN_OP_T(/, uint64) \ DECL_BIN_OP_T(/, const sc_int_base &) \ DECL_BIN_OP_T(/, const sc_uint_base &) \ DECL_BIN_OP_T(/, const sc_signed &) \ DECL_BIN_OP_T(/, const sc_unsigned &) #undef DECL_BIN_OP_T #undef DECL_BIN_OP_OTHER #undef DECL_BIN_OP friend const sc_fxval_fast operator << (const sc_fxval_fast &, int); friend const sc_fxval_fast operator >> (const sc_fxval_fast &, int); // binary functions #define DECL_BIN_FNC_T(fnc, tp) \ friend void fnc (sc_fxval_fast &, const sc_fxval_fast &, tp); \ friend void fnc (sc_fxval_fast &, tp, const sc_fxval_fast &); #define DECL_BIN_FNC_OTHER(fnc) \ DECL_BIN_FNC_T(fnc, int64) \ DECL_BIN_FNC_T(fnc, uint64) \ DECL_BIN_FNC_T(fnc, const sc_int_base &) \ DECL_BIN_FNC_T(fnc, const sc_uint_base &) \ DECL_BIN_FNC_T(fnc, const sc_signed &) \ DECL_BIN_FNC_T(fnc, const sc_unsigned &) #define DECL_BIN_FNC(fnc) \ friend void fnc (sc_fxval_fast &, const sc_fxval_fast &, \ const sc_fxval_fast &); \ DECL_BIN_FNC_T(fnc, int) \ DECL_BIN_FNC_T(fnc, unsigned int) \ DECL_BIN_FNC_T(fnc, long) \ DECL_BIN_FNC_T(fnc, unsigned long) \ DECL_BIN_FNC_T(fnc, float) \ DECL_BIN_FNC_T(fnc, double) \ DECL_BIN_FNC_T(fnc, const char *) \ DECL_BIN_FNC_T(fnc, const sc_fxval &) \ DECL_BIN_FNC_T(fnc, const sc_fxnum &) \ DECL_BIN_FNC_OTHER(fnc) DECL_BIN_FNC(mult) DECL_BIN_FNC(div) DECL_BIN_FNC(add) DECL_BIN_FNC(sub) #undef DECL_BIN_FNC_T #undef DECL_BIN_FNC_OTHER #undef DECL_BIN_FNC friend void lshift(sc_fxval_fast &, const sc_fxval_fast &, int); friend void rshift(sc_fxval_fast &, const sc_fxval_fast &, int); // relational (including equality) operators #define DECL_REL_OP_T(op, tp) \ friend bool operator op (const sc_fxval_fast &, tp); \ friend bool operator op (tp, const sc_fxval_fast &); #define DECL_REL_OP_OTHER(op) \ DECL_REL_OP_T(op, int64) \ DECL_REL_OP_T(op, uint64) \ DECL_REL_OP_T(op, const sc_int_base &) \ DECL_REL_OP_T(op, const sc_uint_base &) \ DECL_REL_OP_T(op, const sc_signed &) \ DECL_REL_OP_T(op, const sc_unsigned &) #define DECL_REL_OP(op) \ friend bool operator op (const sc_fxval_fast &, const sc_fxval_fast &); \ DECL_REL_OP_T(op, int) \ DECL_REL_OP_T(op, unsigned int) \ DECL_REL_OP_T(op, long) \ DECL_REL_OP_T(op, unsigned long) \ DECL_REL_OP_T(op, float) \ DECL_REL_OP_T(op, double) \ DECL_REL_OP_T(op, const char *) \ DECL_REL_OP_OTHER(op) DECL_REL_OP(<) DECL_REL_OP(<=) DECL_REL_OP(>) DECL_REL_OP(>=) DECL_REL_OP(==) DECL_REL_OP(!=) #undef DECL_REL_OP_T #undef DECL_REL_OP_OTHER #undef DECL_REL_OP // assignment operators #define DECL_ASN_OP_T(op, tp) sc_fxval_fast &operator op(tp); #define DECL_ASN_OP_OTHER(op) \ DECL_ASN_OP_T(op, int64) \ DECL_ASN_OP_T(op, uint64) \ DECL_ASN_OP_T(op, const sc_int_base &) \ DECL_ASN_OP_T(op, const sc_uint_base &) \ DECL_ASN_OP_T(op, const sc_signed &) \ DECL_ASN_OP_T(op, const sc_unsigned &) #define DECL_ASN_OP(op) \ DECL_ASN_OP_T(op, int) \ DECL_ASN_OP_T(op, unsigned int) \ DECL_ASN_OP_T(op, long) \ DECL_ASN_OP_T(op, unsigned long) \ DECL_ASN_OP_T(op, float) \ DECL_ASN_OP_T(op, double) \ DECL_ASN_OP_T(op, const char *) \ DECL_ASN_OP_T(op, const sc_fxval &) \ DECL_ASN_OP_T(op, const sc_fxval_fast &) \ DECL_ASN_OP_T(op, const sc_fxnum &) \ DECL_ASN_OP_T(op, const sc_fxnum_fast &) \ DECL_ASN_OP_OTHER(op) DECL_ASN_OP(=) DECL_ASN_OP(*=) DECL_ASN_OP(/=) DECL_ASN_OP(+=) DECL_ASN_OP(-=) DECL_ASN_OP_T(<<=, int) DECL_ASN_OP_T(>>=, int) #undef DECL_ASN_OP_T #undef DECL_ASN_OP_OTHER #undef DECL_ASN_OP // auto-increment and auto-decrement const sc_fxval_fast operator ++ (int); const sc_fxval_fast operator -- (int); sc_fxval_fast & operator ++ (); sc_fxval_fast & operator -- (); // implicit conversion operator double() const; // necessary evil! // explicit conversion to primitive types short to_short() const; unsigned short to_ushort() const; int to_int() const; unsigned int to_uint() const; long to_long() const; unsigned long to_ulong() const; int64 to_int64() const; uint64 to_uint64() const; float to_float() const; double to_double() const; // explicit conversion to character string const std::string to_string() const; const std::string to_string(sc_numrep) const; const std::string to_string(sc_numrep, bool) const; const std::string to_string(sc_fmt) const; const std::string to_string(sc_numrep, sc_fmt) const; const std::string to_string(sc_numrep, bool, sc_fmt) const; const std::string to_dec() const; const std::string to_bin() const; const std::string to_oct() const; const std::string to_hex() const; // query value bool is_neg() const; bool is_zero() const; bool is_nan() const; bool is_inf() const; bool is_normal() const; bool rounding_flag() const; // print or dump content void print(::std::ostream & =::std::cout) const; void scan(::std::istream & =::std::cin); void dump(::std::ostream & =::std::cout) const; // internal use only; bool get_bit(int) const; protected: sc_fxval_fast_observer *lock_observer() const; void unlock_observer(sc_fxval_fast_observer *) const; static double from_string(const char *); private: double m_val; mutable sc_fxval_fast_observer *m_observer; }; // IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII // ---------------------------------------------------------------------------- // CLASS : sc_fxval // // Fixed-point value type; arbitrary precision. // ---------------------------------------------------------------------------- // protected method inline sc_fxval_observer *sc_fxval::observer() const { return m_observer; } // internal use only; inline sc_fxval::sc_fxval(scfx_rep *a) : m_rep(a != 0 ? a : new scfx_rep), m_observer(0) {} // public constructors inline sc_fxval::sc_fxval(sc_fxval_observer *observer_) : m_rep(new scfx_rep), m_observer(observer_) { SC_FXVAL_OBSERVER_DEFAULT_ SC_FXVAL_OBSERVER_CONSTRUCT_(*this) } inline sc_fxval::sc_fxval(const sc_fxval &a, sc_fxval_observer *observer_) : m_rep(new scfx_rep(*a.m_rep)), m_observer(observer_) { SC_FXVAL_OBSERVER_DEFAULT_ SC_FXVAL_OBSERVER_READ_(a) SC_FXVAL_OBSERVER_CONSTRUCT_(*this) SC_FXVAL_OBSERVER_WRITE_(*this) } #define DEFN_CTOR_T(tp, arg) \ inline sc_fxval::sc_fxval(tp a, sc_fxval_observer *observer_) : \ m_rep(new scfx_rep(arg)), m_observer(observer_) \ { \ SC_FXVAL_OBSERVER_DEFAULT_ \ SC_FXVAL_OBSERVER_CONSTRUCT_(*this) \ SC_FXVAL_OBSERVER_WRITE_(*this) \ } #define DEFN_CTOR_T_A(tp) DEFN_CTOR_T(tp, a) #define DEFN_CTOR_T_B(tp) DEFN_CTOR_T(tp, a.to_double()) #define DEFN_CTOR_T_C(tp) DEFN_CTOR_T(tp, a.value()) DEFN_CTOR_T_A(int) DEFN_CTOR_T_A(unsigned int) DEFN_CTOR_T_A(long) DEFN_CTOR_T_A(unsigned long) DEFN_CTOR_T_A(float) DEFN_CTOR_T_A(double) DEFN_CTOR_T_A(const char *) DEFN_CTOR_T_B(const sc_fxval_fast &) DEFN_CTOR_T_A(int64) DEFN_CTOR_T_A(uint64) DEFN_CTOR_T_C(const sc_int_base &) DEFN_CTOR_T_C(const sc_uint_base &) DEFN_CTOR_T_A(const sc_signed &) DEFN_CTOR_T_A(const sc_unsigned &) #undef DEFN_CTOR_T #undef DEFN_CTOR_T_A #undef DEFN_CTOR_T_B #undef DEFN_CTOR_T_C inline sc_fxval::~sc_fxval() { SC_FXVAL_OBSERVER_DESTRUCT_(*this) delete m_rep; } // internal use only; inline const scfx_rep * sc_fxval::get_rep() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep; } // internal use only; inline void sc_fxval::set_rep(scfx_rep *rep_) { delete m_rep; m_rep = rep_; SC_FXVAL_OBSERVER_WRITE_(*this) } // unary operators inline const sc_fxval sc_fxval::operator - () const { SC_FXVAL_OBSERVER_READ_(*this) return sc_fxval(sc_dt::neg_scfx_rep(*m_rep)); } inline const sc_fxval & sc_fxval::operator + () const { // SC_FXVAL_OBSERVER_READ_(*this) return *this; } // unary functions inline void neg(sc_fxval &c, const sc_fxval &a) { SC_FXVAL_OBSERVER_READ_(a) delete c.m_rep; c.m_rep = sc_dt::neg_scfx_rep(*a.m_rep); SC_FXVAL_OBSERVER_WRITE_(c) } // binary operators #define DEFN_BIN_OP_T(op, fnc, tp) \ inline const sc_fxval \ operator op (const sc_fxval &a, tp b) \ { \ SC_FXVAL_OBSERVER_READ_(a) \ sc_fxval tmp(b); \ return sc_fxval(sc_dt::fnc ## _scfx_rep(*a.m_rep, *tmp.m_rep)); \ } \ \ inline \ const sc_fxval \ operator op (tp a, const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(b) \ sc_fxval tmp(a); \ return sc_fxval(sc_dt::fnc ## _scfx_rep(*tmp.m_rep, *b.m_rep)); \ } #define DEFN_BIN_OP_OTHER(op, fnc) \ DEFN_BIN_OP_T(op, fnc, int64) \ DEFN_BIN_OP_T(op, fnc, uint64) \ DEFN_BIN_OP_T(op, fnc, const sc_int_base &) \ DEFN_BIN_OP_T(op, fnc, const sc_uint_base &) \ DEFN_BIN_OP_T(op, fnc, const sc_signed &) \ DEFN_BIN_OP_T(op, fnc, const sc_unsigned &) #define DEFN_BIN_OP(op, fnc) \ inline const sc_fxval \ operator op (const sc_fxval &a, const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(a) \ SC_FXVAL_OBSERVER_READ_(b) \ return sc_fxval(sc_dt::fnc ## _scfx_rep( *a.m_rep, *b.m_rep)); \ } \ \ DEFN_BIN_OP_T(op, fnc, int) \ DEFN_BIN_OP_T(op, fnc, unsigned int) \ DEFN_BIN_OP_T(op, fnc, long) \ DEFN_BIN_OP_T(op, fnc, unsigned long) \ DEFN_BIN_OP_T(op, fnc, float) \ DEFN_BIN_OP_T(op, fnc, double) \ DEFN_BIN_OP_T(op, fnc, const char *) \ DEFN_BIN_OP_T(op, fnc, const sc_fxval_fast &) \ DEFN_BIN_OP_OTHER(op, fnc) DEFN_BIN_OP(*, mult) DEFN_BIN_OP(+, add) DEFN_BIN_OP(-, sub) // don't use macro //DEFN_BIN_OP(/, div) inline const sc_fxval operator / (const sc_fxval &a, const sc_fxval &b) { SC_FXVAL_OBSERVER_READ_(a) SC_FXVAL_OBSERVER_READ_(b) return sc_fxval(sc_dt::div_scfx_rep(*a.m_rep, *b.m_rep)); } DEFN_BIN_OP_T(/, div, int) DEFN_BIN_OP_T(/, div, unsigned int) DEFN_BIN_OP_T(/, div, long) DEFN_BIN_OP_T(/, div, unsigned long) DEFN_BIN_OP_T(/, div, float) DEFN_BIN_OP_T(/, div, double) DEFN_BIN_OP_T(/, div, const char *) DEFN_BIN_OP_T(/, div, const sc_fxval_fast &) //DEFN_BIN_OP_OTHER(/, div) DEFN_BIN_OP_T(/, div, int64) DEFN_BIN_OP_T(/, div, uint64) DEFN_BIN_OP_T(/, div, const sc_int_base &) DEFN_BIN_OP_T(/, div, const sc_uint_base &) DEFN_BIN_OP_T(/, div, const sc_signed &) DEFN_BIN_OP_T(/, div, const sc_unsigned &) #undef DEFN_BIN_OP_T #undef DEFN_BIN_OP_OTHER #undef DEFN_BIN_OP inline const sc_fxval operator << (const sc_fxval &a, int b) { SC_FXVAL_OBSERVER_READ_(a) return sc_fxval(sc_dt::lsh_scfx_rep(*a.m_rep, b)); } inline const sc_fxval operator >> (const sc_fxval &a, int b) { SC_FXVAL_OBSERVER_READ_(a) return sc_fxval(sc_dt::rsh_scfx_rep(*a.m_rep, b)); } // binary functions #define DEFN_BIN_FNC_T(fnc, tp) \ inline void \ fnc (sc_fxval &c, const sc_fxval &a, tp b) \ { \ SC_FXVAL_OBSERVER_READ_(a) \ sc_fxval tmp(b); \ delete c.m_rep; \ c.m_rep = sc_dt::fnc ## _scfx_rep(*a.m_rep, *tmp.m_rep); \ SC_FXVAL_OBSERVER_WRITE_(c) \ } \ \ inline void \ fnc (sc_fxval &c, tp a, const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(b) \ sc_fxval tmp(a); \ delete c.m_rep; \ c.m_rep = sc_dt::fnc ## _scfx_rep(*tmp.m_rep, *b.m_rep); \ SC_FXVAL_OBSERVER_WRITE_(c) \ } #define DEFN_BIN_FNC_OTHER(fnc) \ DEFN_BIN_FNC_T(fnc, int64) \ DEFN_BIN_FNC_T(fnc, uint64) \ DEFN_BIN_FNC_T(fnc, const sc_int_base &) \ DEFN_BIN_FNC_T(fnc, const sc_uint_base &) \ DEFN_BIN_FNC_T(fnc, const sc_signed &) \ DEFN_BIN_FNC_T(fnc, const sc_unsigned &) #define DEFN_BIN_FNC(fnc) \ inline void \ fnc(sc_fxval &c, const sc_fxval &a, const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(a) \ SC_FXVAL_OBSERVER_READ_(b) \ delete c.m_rep; \ c.m_rep = sc_dt::fnc ## _scfx_rep(*a.m_rep, *b.m_rep); \ SC_FXVAL_OBSERVER_WRITE_(c) \ } \ \ DEFN_BIN_FNC_T(fnc, int) \ DEFN_BIN_FNC_T(fnc, unsigned int) \ DEFN_BIN_FNC_T(fnc, long) \ DEFN_BIN_FNC_T(fnc, unsigned long) \ DEFN_BIN_FNC_T(fnc, float) \ DEFN_BIN_FNC_T(fnc, double) \ DEFN_BIN_FNC_T(fnc, const char *) \ DEFN_BIN_FNC_T(fnc, const sc_fxval_fast &) \ DEFN_BIN_FNC_OTHER(fnc) DEFN_BIN_FNC(mult) DEFN_BIN_FNC(div) DEFN_BIN_FNC(add) DEFN_BIN_FNC(sub) #undef DEFN_BIN_FNC_T #undef DEFN_BIN_FNC_OTHER #undef DEFN_BIN_FNC inline void lshift(sc_fxval &c, const sc_fxval &a, int b) { SC_FXVAL_OBSERVER_READ_(a) delete c.m_rep; c.m_rep = sc_dt::lsh_scfx_rep(*a.m_rep, b); SC_FXVAL_OBSERVER_WRITE_(c) } inline void rshift(sc_fxval &c, const sc_fxval &a, int b) { SC_FXVAL_OBSERVER_READ_(a) delete c.m_rep; c.m_rep = sc_dt::rsh_scfx_rep(*a.m_rep, b); SC_FXVAL_OBSERVER_WRITE_(c) } // relational (including equality) operators #define DEFN_REL_OP_T(op, ret, tp) \ inline bool \ operator op (const sc_fxval &a, tp b) \ { \ SC_FXVAL_OBSERVER_READ_(a) \ sc_fxval tmp(b); \ int result = sc_dt::cmp_scfx_rep(*a.m_rep, *tmp.m_rep); \ return (ret); \ } \ \ inline bool \ operator op (tp a, const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(b) \ sc_fxval tmp(a); \ int result = sc_dt::cmp_scfx_rep(*tmp.m_rep, *b.m_rep); \ return (ret); \ } #define DEFN_REL_OP_OTHER(op, ret) \ DEFN_REL_OP_T(op, ret, int64) \ DEFN_REL_OP_T(op, ret, uint64) \ DEFN_REL_OP_T(op, ret, const sc_int_base &) \ DEFN_REL_OP_T(op, ret, const sc_uint_base &) \ DEFN_REL_OP_T(op, ret, const sc_signed &) \ DEFN_REL_OP_T(op, ret, const sc_unsigned &) #define DEFN_REL_OP(op, ret) \ inline bool \ operator op (const sc_fxval &a, const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(a) \ SC_FXVAL_OBSERVER_READ_(b) \ int result = sc_dt::cmp_scfx_rep(*a.m_rep, *b.m_rep); \ return (ret); \ } \ \ DEFN_REL_OP_T(op, ret, int) \ DEFN_REL_OP_T(op, ret, unsigned int) \ DEFN_REL_OP_T(op, ret, long) \ DEFN_REL_OP_T(op, ret, unsigned long) \ DEFN_REL_OP_T(op, ret, float) \ DEFN_REL_OP_T(op, ret, double) \ DEFN_REL_OP_T(op, ret, const char *) \ DEFN_REL_OP_T(op, ret, const sc_fxval_fast &) \ DEFN_REL_OP_OTHER(op, ret) DEFN_REL_OP(<, result < 0) DEFN_REL_OP(<=, result <= 0) DEFN_REL_OP(>, result > 0 && result != 2) DEFN_REL_OP(>=, result >= 0 && result != 2) DEFN_REL_OP(==, result == 0) DEFN_REL_OP(!=, result != 0) #undef DEFN_REL_OP_T #undef DEFN_REL_OP_OTHER #undef DEFN_REL_OP // assignment operators inline sc_fxval & sc_fxval::operator = (const sc_fxval &a) { if (&a != this) { SC_FXVAL_OBSERVER_READ_(a) *m_rep = *a.m_rep; SC_FXVAL_OBSERVER_WRITE_(*this) } return *this; } #define DEFN_ASN_OP_T(tp) \ inline sc_fxval & \ sc_fxval::operator = (tp b) \ { \ sc_fxval tmp(b); \ *m_rep = *tmp.m_rep; \ SC_FXVAL_OBSERVER_WRITE_(*this) \ return *this; \ } DEFN_ASN_OP_T(int) DEFN_ASN_OP_T(unsigned int) DEFN_ASN_OP_T(long) DEFN_ASN_OP_T(unsigned long) DEFN_ASN_OP_T(float) DEFN_ASN_OP_T(double) DEFN_ASN_OP_T(const char *) DEFN_ASN_OP_T(const sc_fxval_fast &) DEFN_ASN_OP_T(int64) DEFN_ASN_OP_T(uint64) DEFN_ASN_OP_T(const sc_int_base &) DEFN_ASN_OP_T(const sc_uint_base &) DEFN_ASN_OP_T(const sc_signed &) DEFN_ASN_OP_T(const sc_unsigned &) #undef DEFN_ASN_OP_T #define DEFN_ASN_OP_T(op, fnc, tp) \ inline sc_fxval & \ sc_fxval::operator op (tp b) \ { \ SC_FXVAL_OBSERVER_READ_(*this) \ sc_fxval tmp(b); \ scfx_rep *new_rep = sc_dt::fnc ## _scfx_rep(*m_rep, *tmp.m_rep); \ delete m_rep; \ m_rep = new_rep; \ SC_FXVAL_OBSERVER_WRITE_(*this) \ return *this; \ } #define DEFN_ASN_OP_OTHER(op, fnc) \ DEFN_ASN_OP_T(op, fnc, int64) \ DEFN_ASN_OP_T(op, fnc, uint64) \ DEFN_ASN_OP_T(op, fnc, const sc_int_base &) \ DEFN_ASN_OP_T(op, fnc, const sc_uint_base &) \ DEFN_ASN_OP_T(op, fnc, const sc_signed &) \ DEFN_ASN_OP_T(op, fnc, const sc_unsigned &) #define DEFN_ASN_OP(op, fnc) \ inline sc_fxval & \ sc_fxval::operator op (const sc_fxval &b) \ { \ SC_FXVAL_OBSERVER_READ_(*this) \ SC_FXVAL_OBSERVER_READ_(b) \ scfx_rep *new_rep = sc_dt::fnc ## _scfx_rep(*m_rep, *b.m_rep); \ delete m_rep; \ m_rep = new_rep; \ SC_FXVAL_OBSERVER_WRITE_(*this) \ return *this; \ } \ \ DEFN_ASN_OP_T(op, fnc, int) \ DEFN_ASN_OP_T(op, fnc, unsigned int) \ DEFN_ASN_OP_T(op, fnc, long) \ DEFN_ASN_OP_T(op, fnc, unsigned long) \ DEFN_ASN_OP_T(op, fnc, float) \ DEFN_ASN_OP_T(op, fnc, double) \ DEFN_ASN_OP_T(op, fnc, const char *) \ DEFN_ASN_OP_T(op, fnc, const sc_fxval_fast &) \ DEFN_ASN_OP_OTHER(op, fnc) DEFN_ASN_OP(*=, mult) DEFN_ASN_OP(/=, div) DEFN_ASN_OP(+=, add) DEFN_ASN_OP(-=, sub) #undef DEFN_ASN_OP_T #undef DEFN_ASN_OP_OTHER #undef DEFN_ASN_OP inline sc_fxval & sc_fxval::operator <<= (int b) { SC_FXVAL_OBSERVER_READ_(*this) m_rep->lshift(b); SC_FXVAL_OBSERVER_WRITE_(*this) return *this; } inline sc_fxval & sc_fxval::operator >>= (int b) { SC_FXVAL_OBSERVER_READ_(*this) m_rep->rshift(b); SC_FXVAL_OBSERVER_WRITE_(*this) return *this; } // auto-increment and auto-decrement inline const sc_fxval sc_fxval::operator ++ (int) { sc_fxval c = *this; (*this) += 1; return c; } inline const sc_fxval sc_fxval::operator -- (int) { sc_fxval c = *this; (*this) -= 1; return c; } inline sc_fxval & sc_fxval::operator ++ () { (*this) += 1; return *this; } inline sc_fxval & sc_fxval::operator -- () { (*this) -= 1; return *this; } // implicit conversion inline sc_fxval::operator double() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->to_double(); } // explicit conversion to primitive types inline short sc_fxval::to_short() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline unsigned short sc_fxval::to_ushort() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline int sc_fxval::to_int() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline int64 sc_fxval::to_int64() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline unsigned int sc_fxval::to_uint() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline uint64 sc_fxval::to_uint64() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->to_uint64(); } inline long sc_fxval::to_long() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline unsigned long sc_fxval::to_ulong() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_uint64()); } inline float sc_fxval::to_float() const { SC_FXVAL_OBSERVER_READ_(*this) return static_cast(m_rep->to_double()); } inline double sc_fxval::to_double() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->to_double(); } // query value inline bool sc_fxval::is_neg() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->is_neg(); } inline bool sc_fxval::is_zero() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->is_zero(); } inline bool sc_fxval::is_nan() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->is_nan(); } inline bool sc_fxval::is_inf() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->is_inf(); } inline bool sc_fxval::is_normal() const { SC_FXVAL_OBSERVER_READ_(*this) return m_rep->is_normal(); } inline bool sc_fxval::rounding_flag() const { return m_rep->rounding_flag(); } // internal use only; inline bool sc_fxval::get_bit(int i) const { return m_rep->get_bit(i); } // protected methods and friend functions inline void sc_fxval::get_type(int &wl, int &iwl, sc_enc &enc) const { m_rep->get_type(wl, iwl, enc); } inline const sc_fxval sc_fxval::quantization(const scfx_params ¶ms, bool &q_flag) const { return sc_fxval(sc_dt::quantization_scfx_rep(*m_rep, params, q_flag)); } inline const sc_fxval sc_fxval::overflow(const scfx_params ¶ms, bool &o_flag) const { return sc_fxval(sc_dt::overflow_scfx_rep(*m_rep, params, o_flag)); } inline ::std::ostream & operator << (::std::ostream &os, const sc_fxval &a) { a.print(os); return os; } inline ::std::istream & operator >> (::std::istream &is, sc_fxval &a) { a.scan(is); return is; } // ---------------------------------------------------------------------------- // CLASS : sc_fxval_fast // // Fixed-point value type; limited precision. // ---------------------------------------------------------------------------- // protected method inline sc_fxval_fast_observer * sc_fxval_fast::observer() const { return m_observer; } // public constructors inline sc_fxval_fast::sc_fxval_fast(sc_fxval_fast_observer *observer_) : m_val(0.0), m_observer(observer_) { SC_FXVAL_FAST_OBSERVER_DEFAULT_ SC_FXVAL_FAST_OBSERVER_CONSTRUCT_(*this) } inline sc_fxval_fast::sc_fxval_fast(const sc_fxval_fast &a, sc_fxval_fast_observer *observer_) : m_val(a.m_val), m_observer(observer_) { SC_FXVAL_FAST_OBSERVER_DEFAULT_ SC_FXVAL_FAST_OBSERVER_READ_(a) SC_FXVAL_FAST_OBSERVER_CONSTRUCT_(*this) SC_FXVAL_FAST_OBSERVER_WRITE_(*this) } #define DEFN_CTOR_T(tp, arg) \ inline sc_fxval_fast::sc_fxval_fast( \ tp a, sc_fxval_fast_observer * observer_) : \ m_val(arg), m_observer(observer_) \ { \ SC_FXVAL_FAST_OBSERVER_DEFAULT_ \ SC_FXVAL_FAST_OBSERVER_CONSTRUCT_(*this) \ SC_FXVAL_FAST_OBSERVER_WRITE_(*this) \ } #define DEFN_CTOR_T_A(tp) DEFN_CTOR_T(tp, static_cast(a)) #define DEFN_CTOR_T_B(tp) DEFN_CTOR_T(tp, from_string(a)) #define DEFN_CTOR_T_C(tp) DEFN_CTOR_T(tp, a.to_double()) DEFN_CTOR_T_A(int) DEFN_CTOR_T_A(unsigned int) DEFN_CTOR_T_A(long) DEFN_CTOR_T_A(unsigned long) DEFN_CTOR_T_A(float) DEFN_CTOR_T_A(double) DEFN_CTOR_T_B(const char *) DEFN_CTOR_T_C(const sc_fxval &) DEFN_CTOR_T_A(int64) DEFN_CTOR_T_A(uint64) DEFN_CTOR_T_C(const sc_int_base &) DEFN_CTOR_T_C(const sc_uint_base &) DEFN_CTOR_T_C(const sc_signed &) DEFN_CTOR_T_C(const sc_unsigned &) #undef DEFN_CTOR_T #undef DEFN_CTOR_T_A #undef DEFN_CTOR_T_B #undef DEFN_CTOR_T_C #undef DEFN_CTOR_T_D #undef DEFN_CTOR_T_E inline sc_fxval_fast::~sc_fxval_fast() { SC_FXVAL_FAST_OBSERVER_DESTRUCT_(*this) } // internal use only; inline double sc_fxval_fast::get_val() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) return m_val; } // internal use only; inline void sc_fxval_fast::set_val(double val_) { m_val = val_; SC_FXVAL_FAST_OBSERVER_WRITE_(*this) } // unary operators inline const sc_fxval_fast sc_fxval_fast::operator - () const { SC_FXVAL_FAST_OBSERVER_READ_(*this) return sc_fxval_fast(-m_val); } inline const sc_fxval_fast & sc_fxval_fast::operator + () const { // SC_FXVAL_FAST_OBSERVER_READ_(*this) return *this; } // unary functions inline void neg(sc_fxval_fast &c, const sc_fxval_fast &a) { SC_FXVAL_FAST_OBSERVER_READ_(a) c.m_val = - a.m_val; SC_FXVAL_FAST_OBSERVER_WRITE_(c) } // binary operators #define DEFN_BIN_OP_T(op, tp) \ inline const sc_fxval_fast \ operator op (const sc_fxval_fast &a, tp b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(a) \ sc_fxval_fast tmp(b); \ return sc_fxval_fast(a.m_val op tmp.m_val); \ } \ \ inline const sc_fxval_fast \ operator op (tp a, const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ sc_fxval_fast tmp(a); \ return sc_fxval_fast(tmp.m_val op b.m_val); \ } #define DEFN_BIN_OP_OTHER(op) \ DEFN_BIN_OP_T(op, int64) \ DEFN_BIN_OP_T(op, uint64) \ DEFN_BIN_OP_T(op, const sc_int_base &) \ DEFN_BIN_OP_T(op, const sc_uint_base &) \ DEFN_BIN_OP_T(op, const sc_signed &) \ DEFN_BIN_OP_T(op, const sc_unsigned &) #define DEFN_BIN_OP(op, dummy) \ inline const sc_fxval_fast \ operator op (const sc_fxval_fast &a, const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(a) \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ return sc_fxval_fast(a.m_val op b.m_val); \ } \ \ DEFN_BIN_OP_T(op, int) \ DEFN_BIN_OP_T(op, unsigned int) \ DEFN_BIN_OP_T(op, long) \ DEFN_BIN_OP_T(op, unsigned long) \ DEFN_BIN_OP_T(op, float) \ DEFN_BIN_OP_T(op, double) \ DEFN_BIN_OP_T(op, const char *) \ DEFN_BIN_OP_OTHER(op) DEFN_BIN_OP(*, mult) DEFN_BIN_OP(+, add) DEFN_BIN_OP(-, sub) //DEFN_BIN_OP(/, div) inline const sc_fxval_fast operator / (const sc_fxval_fast &a, const sc_fxval_fast &b) { SC_FXVAL_FAST_OBSERVER_READ_(a) SC_FXVAL_FAST_OBSERVER_READ_(b) return sc_fxval_fast(a.m_val / b.m_val); } DEFN_BIN_OP_T(/, int) DEFN_BIN_OP_T(/, unsigned int) DEFN_BIN_OP_T(/, long) DEFN_BIN_OP_T(/, unsigned long) DEFN_BIN_OP_T(/, float) DEFN_BIN_OP_T(/, double) DEFN_BIN_OP_T(/, const char *) //DEFN_BIN_OP_OTHER(/) DEFN_BIN_OP_T(/, int64) DEFN_BIN_OP_T(/, uint64) DEFN_BIN_OP_T(/, const sc_int_base &) DEFN_BIN_OP_T(/, const sc_uint_base &) DEFN_BIN_OP_T(/, const sc_signed &) DEFN_BIN_OP_T(/, const sc_unsigned &) #undef DEFN_BIN_OP_T #undef DEFN_BIN_OP_OTHER #undef DEFN_BIN_OP inline const sc_fxval_fast operator << (const sc_fxval_fast &a, int b) { SC_FXVAL_FAST_OBSERVER_READ_(a) return sc_fxval_fast(a.m_val * scfx_pow2(b)); } inline const sc_fxval_fast operator >> (const sc_fxval_fast &a, int b) { SC_FXVAL_FAST_OBSERVER_READ_(a) return sc_fxval_fast(a.m_val * scfx_pow2(-b)); } // binary functions #define DEFN_BIN_FNC_T(fnc, op, tp) \ inline void \ fnc (sc_fxval_fast &c, const sc_fxval_fast &a, tp b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(a) \ sc_fxval_fast tmp(b); \ c.m_val = a.m_val op tmp.m_val; \ SC_FXVAL_FAST_OBSERVER_WRITE_(c) \ } \ \ inline void \ fnc (sc_fxval_fast &c, tp a, const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ sc_fxval_fast tmp(a); \ c.m_val = tmp.m_val op b.m_val; \ SC_FXVAL_FAST_OBSERVER_WRITE_(c) \ } #define DEFN_BIN_FNC_OTHER(fnc, op) \ DEFN_BIN_FNC_T(fnc, op, int64) \ DEFN_BIN_FNC_T(fnc, op, uint64) \ DEFN_BIN_FNC_T(fnc, op, const sc_int_base &) \ DEFN_BIN_FNC_T(fnc, op, const sc_uint_base &) \ DEFN_BIN_FNC_T(fnc, op, const sc_signed &) \ DEFN_BIN_FNC_T(fnc, op, const sc_unsigned &) #define DEFN_BIN_FNC(fnc, op) \ inline void \ fnc (sc_fxval_fast &c, const sc_fxval_fast &a, const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(a) \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ c.m_val = a.m_val op b.m_val; \ SC_FXVAL_FAST_OBSERVER_WRITE_(c) \ } \ \ DEFN_BIN_FNC_T(fnc, op, int) \ DEFN_BIN_FNC_T(fnc, op, unsigned int) \ DEFN_BIN_FNC_T(fnc, op, long) \ DEFN_BIN_FNC_T(fnc, op, unsigned long) \ DEFN_BIN_FNC_T(fnc, op, float) \ DEFN_BIN_FNC_T(fnc, op, double) \ DEFN_BIN_FNC_T(fnc, op, const char *) \ DEFN_BIN_FNC_OTHER(fnc, op) DEFN_BIN_FNC(mult, *) DEFN_BIN_FNC(div, /) DEFN_BIN_FNC(add, +) DEFN_BIN_FNC(sub, -) #undef DEFN_BIN_FNC_T #undef DEFN_BIN_FNC_OTHER #undef DEFN_BIN_FNC inline void lshift(sc_fxval_fast &c, const sc_fxval_fast &a, int b) { SC_FXVAL_FAST_OBSERVER_READ_(a) c.m_val = a.m_val * scfx_pow2(b); SC_FXVAL_FAST_OBSERVER_WRITE_(c) } inline void rshift(sc_fxval_fast &c, const sc_fxval_fast &a, int b) { SC_FXVAL_FAST_OBSERVER_READ_(a) c.m_val = a.m_val * scfx_pow2(-b); SC_FXVAL_FAST_OBSERVER_WRITE_(c) } // relational (including equality) operators #define DEFN_REL_OP_T(op, tp) \ inline bool \ operator op (const sc_fxval_fast &a, tp b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(a) \ sc_fxval_fast tmp(b); \ return (a.m_val op tmp.m_val); \ } \ \ inline bool \ operator op (tp a, const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ sc_fxval_fast tmp(a); \ return (tmp.m_val op b.m_val); \ } #define DEFN_REL_OP_OTHER(op) \ DEFN_REL_OP_T(op, int64) \ DEFN_REL_OP_T(op, uint64) \ DEFN_REL_OP_T(op, const sc_int_base &) \ DEFN_REL_OP_T(op, const sc_uint_base &) \ DEFN_REL_OP_T(op, const sc_signed &) \ DEFN_REL_OP_T(op, const sc_unsigned &) #define DEFN_REL_OP(op) \ inline bool \ operator op (const sc_fxval_fast &a, const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(a) \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ return (a.m_val op b.m_val); \ } \ \ DEFN_REL_OP_T(op, int) \ DEFN_REL_OP_T(op, unsigned int) \ DEFN_REL_OP_T(op, long) \ DEFN_REL_OP_T(op, unsigned long) \ DEFN_REL_OP_T(op, float) \ DEFN_REL_OP_T(op, double) \ DEFN_REL_OP_T(op, const char *) \ DEFN_REL_OP_OTHER(op) DEFN_REL_OP(<) DEFN_REL_OP(<=) DEFN_REL_OP(>) DEFN_REL_OP(>=) DEFN_REL_OP(==) DEFN_REL_OP(!=) #undef DEFN_REL_OP_T #undef DEFN_REL_OP_OTHER #undef DEFN_REL_OP // assignment operators inline sc_fxval_fast & sc_fxval_fast::operator = (const sc_fxval_fast &a) { if (&a != this) { SC_FXVAL_FAST_OBSERVER_READ_(a) m_val = a.m_val; SC_FXVAL_FAST_OBSERVER_WRITE_(*this) } return *this; } #define DEFN_ASN_OP_T(tp) \ inline sc_fxval_fast & \ sc_fxval_fast::operator = (tp a) \ { \ sc_fxval_fast tmp(a); \ m_val = tmp.m_val; \ SC_FXVAL_FAST_OBSERVER_WRITE_(*this) \ return *this; \ } DEFN_ASN_OP_T(int) DEFN_ASN_OP_T(unsigned int) DEFN_ASN_OP_T(long) DEFN_ASN_OP_T(unsigned long) DEFN_ASN_OP_T(float) DEFN_ASN_OP_T(double) DEFN_ASN_OP_T(const char *) DEFN_ASN_OP_T(const sc_fxval &) DEFN_ASN_OP_T(int64) DEFN_ASN_OP_T(uint64) DEFN_ASN_OP_T(const sc_int_base &) DEFN_ASN_OP_T(const sc_uint_base &) DEFN_ASN_OP_T(const sc_signed &) DEFN_ASN_OP_T(const sc_unsigned &) #undef DEFN_ASN_OP_T #define DEFN_ASN_OP_T(op, tp) \ inline sc_fxval_fast & \ sc_fxval_fast::operator op (tp b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(*this) \ sc_fxval_fast tmp(b); \ m_val op tmp.m_val; \ SC_FXVAL_FAST_OBSERVER_WRITE_(*this) \ return *this; \ } #define DEFN_ASN_OP_OTHER(op) \ DEFN_ASN_OP_T(op, int64) \ DEFN_ASN_OP_T(op, uint64) \ DEFN_ASN_OP_T(op, const sc_int_base &) \ DEFN_ASN_OP_T(op, const sc_uint_base &) \ DEFN_ASN_OP_T(op, const sc_signed &) \ DEFN_ASN_OP_T(op, const sc_unsigned &) #define DEFN_ASN_OP(op) \ inline sc_fxval_fast & \ sc_fxval_fast::operator op (const sc_fxval_fast &b) \ { \ SC_FXVAL_FAST_OBSERVER_READ_(*this) \ SC_FXVAL_FAST_OBSERVER_READ_(b) \ m_val op b.m_val; \ SC_FXVAL_FAST_OBSERVER_WRITE_(*this) \ return *this; \ } \ \ DEFN_ASN_OP_T(op, int) \ DEFN_ASN_OP_T(op, unsigned int) \ DEFN_ASN_OP_T(op, long) \ DEFN_ASN_OP_T(op, unsigned long) \ DEFN_ASN_OP_T(op, float) \ DEFN_ASN_OP_T(op, double) \ DEFN_ASN_OP_T(op, const char *) \ DEFN_ASN_OP_T(op, const sc_fxval &) \ DEFN_ASN_OP_OTHER(op) DEFN_ASN_OP(*=) DEFN_ASN_OP(/=) DEFN_ASN_OP(+=) DEFN_ASN_OP(-=) #undef DEFN_ASN_OP_T #undef DEFN_ASN_OP_OTHER #undef DEFN_ASN_OP inline sc_fxval_fast & sc_fxval_fast::operator <<= (int b) { SC_FXVAL_FAST_OBSERVER_READ_(*this) m_val *= scfx_pow2(b); SC_FXVAL_FAST_OBSERVER_WRITE_(*this) return *this; } inline sc_fxval_fast & sc_fxval_fast::operator >>= (int b) { SC_FXVAL_FAST_OBSERVER_READ_(*this) m_val *= scfx_pow2(-b); SC_FXVAL_FAST_OBSERVER_WRITE_(*this) return *this; } // auto-increment and auto-decrement inline const sc_fxval_fast sc_fxval_fast::operator ++ (int) { SC_FXVAL_FAST_OBSERVER_READ_(*this) SC_FXVAL_FAST_OBSERVER_READ_(*this) double c = m_val; m_val = m_val + 1; SC_FXVAL_FAST_OBSERVER_WRITE_(*this) return sc_fxval_fast(c); } inline const sc_fxval_fast sc_fxval_fast::operator -- (int) { SC_FXVAL_FAST_OBSERVER_READ_(*this) SC_FXVAL_FAST_OBSERVER_READ_(*this) double c = m_val; m_val = m_val - 1; SC_FXVAL_FAST_OBSERVER_WRITE_(*this) return sc_fxval_fast(c); } inline sc_fxval_fast & sc_fxval_fast::operator ++ () { SC_FXVAL_FAST_OBSERVER_READ_(*this) m_val = m_val + 1; SC_FXVAL_FAST_OBSERVER_WRITE_(*this) return *this; } inline sc_fxval_fast & sc_fxval_fast::operator -- () { SC_FXVAL_FAST_OBSERVER_READ_(*this) m_val = m_val - 1; SC_FXVAL_FAST_OBSERVER_WRITE_(*this) return *this; } // implicit conversion inline sc_fxval_fast::operator double() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) return m_val; } // explicit conversion to primitive types inline short sc_fxval_fast::to_short() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline unsigned short sc_fxval_fast::to_ushort() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline int64 sc_fxval_fast::to_int64() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline int sc_fxval_fast::to_int() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline unsigned int sc_fxval_fast::to_uint() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline uint64 sc_fxval_fast::to_uint64() const { // SC_FXVAL_FAST_OBSERVER_READ_ in is_normal if (!is_normal()) { return 0; } int exponent; double mantissa_dbl = frexp(m_val, &exponent); uint64 mantissa = static_cast( fabs(mantissa_dbl) * (UINT64_ONE << 53)); exponent -= 53; if (!(-64 < exponent && exponent < 64)) { return 0; } mantissa = exponent >= 0 ? mantissa << exponent : mantissa >> -exponent; return mantissa_dbl >= 0 ? mantissa : -mantissa; } inline long sc_fxval_fast::to_long() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline unsigned long sc_fxval_fast::to_ulong() const { // SC_FXVAL_FAST_OBSERVER_READ_ in to_uint64 return static_cast(to_uint64()); } inline float sc_fxval_fast::to_float() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) return static_cast(m_val); } inline double sc_fxval_fast::to_double() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) return m_val; } // query value inline bool sc_fxval_fast::is_neg() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) scfx_ieee_double id(m_val); return (id.negative() != 0); } inline bool sc_fxval_fast::is_zero() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) scfx_ieee_double id(m_val); return id.is_zero(); } inline bool sc_fxval_fast::is_nan() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) scfx_ieee_double id(m_val); return id.is_nan(); } inline bool sc_fxval_fast::is_inf() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) scfx_ieee_double id(m_val); return id.is_inf(); } inline bool sc_fxval_fast::is_normal() const { SC_FXVAL_FAST_OBSERVER_READ_(*this) scfx_ieee_double id(m_val); return (id.is_normal() || id.is_subnormal() || id.is_zero()); } inline bool sc_fxval_fast::rounding_flag() const { // does not apply to sc_fxval_fast; included for API compatibility return false; } inline ::std::ostream & operator << (::std::ostream &os, const sc_fxval_fast &a) { a.print(os); return os; } inline ::std::istream & operator >> (::std::istream &is, sc_fxval_fast &a) { a.scan(is); return is; } } // namespace sc_dt #undef SCFX_EXPLICIT_ #undef SCFX_EXPLICIT_OTHER_ #endif // __SYSTEMC_EXT_DT_FX_SC_FXVAL_HH__