/***************************************************************************** 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_fifo.h -- The sc_fifo primitive channel class. Original Author: Martin Janssen, Synopsys, Inc., 2001-05-21 CHANGE LOG IS AT THE END OF THE FILE *****************************************************************************/ #ifndef SC_FIFO_H #define SC_FIFO_H #include "sysc/communication/sc_communication_ids.h" #include "sysc/communication/sc_prim_channel.h" #include "sysc/communication/sc_fifo_ifs.h" #include "sysc/kernel/sc_event.h" #include "sysc/kernel/sc_simcontext.h" #include "sysc/tracing/sc_trace.h" #include namespace sc_core { // ---------------------------------------------------------------------------- // CLASS : sc_fifo // // The sc_fifo primitive channel class. // ---------------------------------------------------------------------------- template class sc_fifo : public sc_fifo_in_if, public sc_fifo_out_if, public sc_prim_channel { public: // constructors explicit sc_fifo( int size_ = 16 ) : sc_prim_channel( sc_gen_unique_name( "fifo" ) ), m_data_read_event( (std::string(SC_KERNEL_EVENT_PREFIX)+"_read_event").c_str()), m_data_written_event( (std::string(SC_KERNEL_EVENT_PREFIX)+"_write_event").c_str()) { init( size_ ); } explicit sc_fifo( const char* name_, int size_ = 16 ) : sc_prim_channel( name_ ), m_data_read_event( (std::string(SC_KERNEL_EVENT_PREFIX)+"_read_event").c_str()), m_data_written_event( (std::string(SC_KERNEL_EVENT_PREFIX)+"_write_event").c_str()) { init( size_ ); } // destructor virtual ~sc_fifo() { delete [] m_buf; } // interface methods virtual void register_port( sc_port_base&, const char* ); // blocking read virtual void read( T& ); virtual T read(); // non-blocking read virtual bool nb_read( T& ); // get the number of available samples virtual int num_available() const { return ( m_num_readable - m_num_read ); } // get the data written event virtual const sc_event& data_written_event() const { return m_data_written_event; } // blocking write virtual void write( const T& ); // non-blocking write virtual bool nb_write( const T& ); // get the number of free spaces virtual int num_free() const { return ( m_size - m_num_readable - m_num_written ); } // get the data read event virtual const sc_event& data_read_event() const { return m_data_read_event; } // other methods operator T () { return read(); } sc_fifo& operator = ( const T& a ) { write( a ); return *this; } void trace( sc_trace_file* tf ) const; virtual void print( ::std::ostream& = ::std::cout ) const; virtual void dump( ::std::ostream& = ::std::cout ) const; virtual const char* kind() const { return "sc_fifo"; } protected: virtual void update(); // support methods void init( int ); void buf_init( int ); bool buf_write( const T& ); bool buf_read( T& ); protected: int m_size; // size of the buffer T* m_buf; // the buffer int m_free; // number of free spaces int m_ri; // index of next read int m_wi; // index of next write sc_port_base* m_reader; // used for static design rule checking sc_port_base* m_writer; // used for static design rule checking int m_num_readable; // #samples readable int m_num_read; // #samples read during this delta cycle int m_num_written; // #samples written during this delta cycle sc_event m_data_read_event; sc_event m_data_written_event; private: // disabled sc_fifo( const sc_fifo& ); sc_fifo& operator = ( const sc_fifo& ); }; // IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII template inline void sc_fifo::register_port( sc_port_base& port_, const char* if_typename_ ) { std::string nm( if_typename_ ); if( nm == typeid( sc_fifo_in_if ).name() || nm == typeid( sc_fifo_blocking_in_if ).name() ) { // only one reader can be connected if( m_reader != 0 ) { SC_REPORT_ERROR( SC_ID_MORE_THAN_ONE_FIFO_READER_, 0 ); } m_reader = &port_; } else if( nm == typeid( sc_fifo_out_if ).name() || nm == typeid( sc_fifo_blocking_out_if ).name() ) { // only one writer can be connected if( m_writer != 0 ) { SC_REPORT_ERROR( SC_ID_MORE_THAN_ONE_FIFO_WRITER_, 0 ); } m_writer = &port_; } else { SC_REPORT_ERROR( SC_ID_BIND_IF_TO_PORT_, "sc_fifo port not recognized" ); } } // blocking read template inline void sc_fifo::read( T& val_ ) { while( num_available() == 0 ) { sc_core::wait( m_data_written_event ); } m_num_read ++; buf_read( val_ ); request_update(); } template inline T sc_fifo::read() { T tmp; read( tmp ); return tmp; } // non-blocking read template inline bool sc_fifo::nb_read( T& val_ ) { if( num_available() == 0 ) { return false; } m_num_read ++; buf_read( val_ ); request_update(); return true; } // blocking write template inline void sc_fifo::write( const T& val_ ) { while( num_free() == 0 ) { sc_core::wait( m_data_read_event ); } m_num_written ++; buf_write( val_ ); request_update(); } // non-blocking write template inline bool sc_fifo::nb_write( const T& val_ ) { if( num_free() == 0 ) { return false; } m_num_written ++; buf_write( val_ ); request_update(); return true; } template inline void sc_fifo::trace( sc_trace_file* tf ) const { #if defined(DEBUG_SYSTEMC) char buf[32]; std::string nm = name(); for( int i = 0; i < m_size; ++ i ) { std::sprintf( buf, "_%d", i ); sc_trace( tf, m_buf[i], nm + buf ); } #endif } template inline void sc_fifo::print( ::std::ostream& os ) const { if( m_free != m_size ) { int i = m_ri; do { os << m_buf[i] << ::std::endl; i = ( i + 1 ) % m_size; } while( i != m_wi ); } } template inline void sc_fifo::dump( ::std::ostream& os ) const { os << "name = " << name() << ::std::endl; if( m_free != m_size ) { int i = m_ri; int j = 0; do { os << "value[" << i << "] = " << m_buf[i] << ::std::endl; i = ( i + 1 ) % m_size; j ++; } while( i != m_wi ); } } template inline void sc_fifo::update() { if( m_num_read > 0 ) { m_data_read_event.notify(SC_ZERO_TIME); } if( m_num_written > 0 ) { m_data_written_event.notify(SC_ZERO_TIME); } m_num_readable = m_size - m_free; m_num_read = 0; m_num_written = 0; } // support methods template inline void sc_fifo::init( int size_ ) { buf_init( size_ ); m_reader = 0; m_writer = 0; m_num_readable = 0; m_num_read = 0; m_num_written = 0; } template inline void sc_fifo::buf_init( int size_ ) { if( size_ <= 0 ) { SC_REPORT_ERROR( SC_ID_INVALID_FIFO_SIZE_, 0 ); } m_size = size_; m_buf = new T[m_size]; m_free = m_size; m_ri = 0; m_wi = 0; } template inline bool sc_fifo::buf_write( const T& val_ ) { if( m_free == 0 ) { return false; } m_buf[m_wi] = val_; m_wi = ( m_wi + 1 ) % m_size; m_free --; return true; } template inline bool sc_fifo::buf_read( T& val_ ) { if( m_free == m_size ) { return false; } val_ = m_buf[m_ri]; m_buf[m_ri] = T(); // clear entry for boost::shared_ptr, et al. m_ri = ( m_ri + 1 ) % m_size; m_free ++; return true; } // ---------------------------------------------------------------------------- template inline ::std::ostream& operator << ( ::std::ostream& os, const sc_fifo& a ) { a.print( os ); return os; } } // namespace sc_core //$Log: sc_fifo.h,v $ //Revision 1.6 2011/08/26 20:45:40 acg // Andy Goodrich: moved the modification log to the end of the file to // eliminate source line number skew when check-ins are done. // //Revision 1.5 2011/03/23 16:17:22 acg // Andy Goodrich: hide the sc_events that are kernel related. // //Revision 1.4 2011/02/18 20:23:45 acg // Andy Goodrich: Copyright update. // //Revision 1.3 2009/10/14 19:05:40 acg // Andy Goodrich: added check for blocking interfaces in addition to the // combined blocking/nonblocking interface. // //Revision 1.2 2009/05/22 16:06:24 acg // Andy Goodrich: process control updates. // //Revision 1.1.1.1 2006/12/15 20:20:04 acg //SystemC 2.3 // //Revision 1.4 2006/01/24 20:46:31 acg //Andy Goodrich: changes to eliminate use of deprecated features. For instance, //using notify(SC_ZERO_TIME) in place of notify_delayed(). // //Revision 1.3 2006/01/13 20:41:59 acg //Andy Goodrich: Changes to add port registration to the things that are //checked when SC_NO_WRITE_CHECK is not defined. // //Revision 1.2 2006/01/03 23:18:26 acg //Changed copyright to include 2006. // //Revision 1.1.1.1 2005/12/19 23:16:43 acg //First check in of SystemC 2.1 into its own archive. // //Revision 1.12 2005/09/15 23:01:51 acg //Added std:: prefix to appropriate methods and types to get around //issues with the Edison Front End. // //Revision 1.11 2005/06/10 22:43:55 acg //Added CVS change log annotation. // #endif // Taf!