/***************************************************************************** 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_bv_base.cpp -- Arbitrary size bit vector class. Original Author: Gene Bushuyev, Synopsys, Inc. *****************************************************************************/ /***************************************************************************** MODIFICATION LOG - modifiers, enter your name, affiliation, date and changes you are making here. Name, Affiliation, Date: Description of Modification: *****************************************************************************/ // $Log: sc_bv_base.cpp,v $ // Revision 1.2 2011/08/24 22:05:40 acg // Torsten Maehne: initialization changes to remove warnings. // // Revision 1.1.1.1 2006/12/15 20:20:04 acg // SystemC 2.3 // // Revision 1.4 2006/04/11 23:12:26 acg // Andy Goodrich: Fixed bug in parsing of extended string constants like // 0bus1110011. // // Revision 1.3 2006/01/13 18:53:53 acg // Andy Goodrich: added $Log command so that CVS comments are reproduced in // the source. // #include #include "sysc/datatypes/bit/sc_bit_ids.h" #include "sysc/datatypes/bit/sc_bv_base.h" #include "sysc/datatypes/fx/sc_fix.h" #include "sysc/datatypes/fx/sc_ufix.h" namespace sc_dt { // ---------------------------------------------------------------------------- // CLASS : sc_bv_base // // Arbitrary size bit vector base class. // ---------------------------------------------------------------------------- void sc_bv_base::init( int length_, bool init_value ) { // check the length if( length_ <= 0 ) { SC_REPORT_ERROR( sc_core::SC_ID_ZERO_LENGTH_, 0 ); } // allocate memory for the data and control words m_len = length_; m_size = (m_len - 1) / SC_DIGIT_SIZE + 1; m_data = new sc_digit[m_size]; // initialize the bits to 'init_value' sc_digit dw = init_value ? ~SC_DIGIT_ZERO : SC_DIGIT_ZERO; int sz = m_size; for( int i = 0; i < sz; ++ i ) { m_data[i] = dw; } clean_tail(); } void sc_bv_base::assign_from_string( const std::string& s ) { // s must have been converted to bin int len = m_len; int s_len = s.length() - 1; int min_len = sc_min( len, s_len ); int i = 0; for( ; i < min_len; ++ i ) { char c = s[s_len - i - 1]; if( c != '0' && c != '1' ) { SC_REPORT_ERROR( sc_core::SC_ID_CANNOT_CONVERT_, "string can contain only '0' and '1' characters" ); } set_bit( i, sc_logic_value_t( c - '0' ) ); } // if formatted, fill the rest with sign(s), otherwise fill with zeros sc_logic_value_t fill = (s[s_len] == 'F' ? sc_logic_value_t( s[0] - '0' ) : sc_logic_value_t( 0 )); for( ; i < len; ++ i ) { set_bit( i, fill ); } } // constructors sc_bv_base::sc_bv_base( const char* a ) : m_len( 0 ), m_size( 0 ), m_data( 0 ) { std::string s = convert_to_bin( a ); init( s.length() - 1 ); assign_from_string( s ); } sc_bv_base::sc_bv_base( const char* a, int length_ ) : m_len( 0 ), m_size( 0 ), m_data( 0 ) { init( length_ ); assign_from_string( convert_to_bin( a ) ); } sc_bv_base::sc_bv_base( const sc_bv_base& a ) : sc_proxy(), m_len( a.m_len ), m_size( a.m_size ), m_data( new sc_digit[m_size] ) { // copy the bits int sz = m_size; for( int i = 0; i < sz; ++ i ) { m_data[i] = a.m_data[i]; } } // assignment operators sc_bv_base& sc_bv_base::operator = ( const char* a ) { assign_from_string( convert_to_bin( a ) ); return *this; } #if 0 // bitwise complement sc_bv_base& sc_bv_base::b_not() { int sz = m_size; for( int i = 0; i < sz; ++ i ) { m_data[i] = ~m_data[i]; } clean_tail(); return *this; } // bitwise left shift sc_bv_base& sc_bv_base::operator <<= ( int n ) { if( n < 0 ) { char msg[BUFSIZ]; std::sprintf( msg, "left shift operation is only allowed with positive " "shift values, shift value = %d", n ); SC_REPORT_ERROR( sc_core::SC_ID_OUT_OF_BOUNDS_, msg ); } int sz = m_size; if( n >= m_len ) { for( int i = 0; i < sz; ++ i ) { m_data[i] = SC_DIGIT_ZERO; } // clean_tail(); return *this; } int wn = n / SC_DIGIT_SIZE; int bn = n % SC_DIGIT_SIZE; if( wn != 0 ) { // shift words int i = sz - 1; for( ; i >= wn; -- i ) { m_data[i] = m_data[i - wn]; } for( ; i >= 0; -- i ) { m_data[i] = SC_DIGIT_ZERO; } } if( bn != 0 ) { // shift bits for( int i = sz - 1; i >= 1; -- i ) { m_data[i] <<= bn; m_data[i] |= m_data[i - 1] >> (SC_DIGIT_SIZE - bn); } m_data[0] <<= bn; } clean_tail(); return *this; } // bitwise right shift sc_bv_base& sc_bv_base::operator >>= ( int n ) { if( n < 0 ) { char msg[BUFSIZ]; std::sprintf( msg, "right shift operation is only allowed with positive " "shift values, shift value = %d", n ); SC_REPORT_ERROR( sc_core::SC_ID_OUT_OF_BOUNDS_, msg ); } int sz = m_size; if( n >= m_len ) { for( int i = 0; i < sz; ++ i ) { m_data[i] = SC_DIGIT_ZERO; } // clean_tail(); return *this; } int wn = n / SC_DIGIT_SIZE; int bn = n % SC_DIGIT_SIZE; if( wn != 0 ) { // shift words int i = 0; for( ; i < (sz - wn); ++ i ) { m_data[i] = m_data[i + wn]; } for( ; i < sz; ++ i ) { m_data[i] = SC_DIGIT_ZERO; } } if( bn != 0 ) { // shift bits for( int i = 0; i < (sz - 1); ++ i ) { m_data[i] >>= bn; m_data[i] |= m_data[i + 1] << (SC_DIGIT_SIZE - bn); } m_data[sz - 1] >>= bn; } clean_tail(); return *this; } // bitwise left rotate sc_bv_base& sc_bv_base::lrotate( int n ) { if( n < 0 ) { char msg[BUFSIZ]; std::sprintf( msg, "left rotate operation is only allowed with positive " "rotate values, rotate value = %d", n ); SC_REPORT_ERROR( sc_core::SC_ID_OUT_OF_BOUNDS_, msg ); } int len = m_len; n %= len; *this = (*this << n) | (*this >> (len - n)); return *this; } // bitwise right rotate sc_bv_base& sc_bv_base::rrotate( int n ) { if( n < 0 ) { char msg[BUFSIZ]; std::sprintf( msg, "right rotate operation is only allowed with positive " "rotate values, rotate value = %d", n ); SC_REPORT_ERROR( sc_core::SC_ID_OUT_OF_BOUNDS_, msg ); } int len = m_len; n %= len; *this = (*this >> n) | (*this << (len - n)); return *this; } #endif // ---------------------------------------------------------------------------- // convert formatted string to binary string const std::string convert_to_bin( const char* s ) { // Beware: logic character strings cannot start with '0x' or '0X', // because this is seen as a hexadecimal encoding prefix! if( s == 0 ) { SC_REPORT_ERROR(sc_core::SC_ID_CANNOT_CONVERT_, "character string is zero" ); } if( *s == 0 ) { SC_REPORT_ERROR(sc_core::SC_ID_CANNOT_CONVERT_, "character string is empty"); } int n = strlen( s ); int i = 0; if( s[0] == '-' || s[0] == '+' ) { ++ i; } if( n > (i + 2) && s[i] == '0' ) { if (s[i+1] == 'b' || s[i+1] == 'B' ) { if ( s[i+2] == '0' || s[i+2] == '1' ) { std::string str( &s[2] ); str += "F"; return str; } } if ( s[i+1] == 'b' || s[i+1] == 'B' || s[i+1] == 'c' || s[i+1] == 'C' || s[i+1] == 'd' || s[i+1] == 'D' || s[i+1] == 'o' || s[i+1] == 'O' || s[i+1] == 'x' || s[i+1] == 'X') { try { // worst case length = n * 4 sc_fix a( s, n * 4, n * 4, SC_TRN, SC_WRAP, 0, SC_ON ); std::string str = a.to_bin(); str += "F"; // mark the string as formatted // get rid of prefix (0b) and redundant leading bits const char* p = str.c_str() + 2; while( p[1] && p[0] == p[1] ) { ++ p; } return std::string( p ); } catch( sc_core::sc_report ) { char msg[BUFSIZ]; std::sprintf( msg, "character string '%s' is not valid", s ); SC_REPORT_ERROR( sc_core::SC_ID_CANNOT_CONVERT_, msg ); // never reached return std::string(); } } } // bin by default std::string str( s ); str += "U"; // mark the string as unformatted return str; } // convert binary string to formatted string const std::string convert_to_fmt( const std::string& s, sc_numrep numrep, bool w_prefix ) { int n = s.length(); std::string str("0bus"); // str += "0bus"; str += s; sc_ufix a( str.c_str(), n, n, SC_TRN, SC_WRAP, 0, SC_ON ); return a.to_string( numrep, w_prefix ); } } // namespace sc_dt