#ifdef SYSTEMC /* * $Id: Read_queue_genMealy_read_queue_out_val.cpp 88 2008-12-10 18:31:39Z rosiere $ * * [ Description ] * */ #include "Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Read_unit/Read_unit/Read_queue/include/Read_queue.h" namespace morpheo { namespace behavioural { namespace core { namespace multi_execute_loop { namespace execute_loop { namespace multi_read_unit { namespace read_unit { namespace read_queue { #undef FUNCTION #define FUNCTION "Read_queue::genMealy_read_queue_out_val" void Read_queue::genMealy_read_queue_out_val (void) { log_begin(Read_queue,FUNCTION); log_function(Read_queue,FUNCTION,_name.c_str()); internal_READ_QUEUE_OUT_READ_RA_VAL = (// Previous value _queue_head->_read_ra_val and // Test if have already access at the registerfile not PORT_READ(in_GPR_READ_ACK [0]) ); internal_READ_QUEUE_OUT_READ_RB_VAL = (_queue_head->_read_rb_val and not PORT_READ(in_GPR_READ_ACK [1]) ); internal_READ_QUEUE_OUT_READ_RC_VAL = (_queue_head->_read_rc_val and not PORT_READ(in_SPR_READ_ACK [0]) ); // Test all bypass for (uint32_t i=0; i<_param->_nb_gpr_write ; i++) { bool cmp; if (_param->_have_port_ooo_engine_id) cmp = (PORT_READ (in_GPR_WRITE_OOO_ENGINE_ID [i]) == _queue_head->_ooo_engine_id); else cmp = true; // Test if this bypass is valid if ((PORT_READ (in_GPR_WRITE_VAL [i]) == 1) and cmp) { Tgeneral_address_t gpr_write_num_reg = PORT_READ(in_GPR_WRITE_NUM_REG [i]); if (_queue_head->_num_reg_ra == gpr_write_num_reg) internal_READ_QUEUE_OUT_READ_RA_VAL = 0; if (_queue_head->_num_reg_rb == gpr_write_num_reg) internal_READ_QUEUE_OUT_READ_RB_VAL = 0; } } for (uint32_t i=0; i<_param->_nb_spr_write ; i++) { bool cmp; if (_param->_have_port_ooo_engine_id) cmp = (PORT_READ (in_SPR_WRITE_OOO_ENGINE_ID [i]) == _queue_head->_ooo_engine_id); else cmp = true; // Test if this bypass is valid if ((PORT_READ (in_SPR_WRITE_VAL [i]) == 1) and cmp) { Tspecial_address_t spr_write_num_reg = PORT_READ(in_SPR_WRITE_NUM_REG [i]); if (_queue_head->_num_reg_rc == spr_write_num_reg) internal_READ_QUEUE_OUT_READ_RC_VAL = 0; } } // Affectation out port // READ_QUEUE_OUT_VAL : mealy internal_READ_QUEUE_OUT_VAL = (not _queue->empty() and not internal_READ_QUEUE_OUT_READ_RA_VAL and not internal_READ_QUEUE_OUT_READ_RB_VAL and not internal_READ_QUEUE_OUT_READ_RC_VAL ); // READ_QUEUE_OUT_VAL : moore // internal_READ_QUEUE_OUT_VAL = (not _queue->empty() and // not _queue_head->_read_ra_val and // not _queue_head->_read_rb_val and // not _queue_head->_read_rc_val // ); PORT_WRITE(out_READ_QUEUE_OUT_VAL, internal_READ_QUEUE_OUT_VAL); log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_VAL : %d",internal_READ_QUEUE_OUT_VAL); log_printf(TRACE,Read_queue,FUNCTION," * _queue->empty() : %d",_queue->empty()); log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_READ_RA_VAL : %d",internal_READ_QUEUE_OUT_READ_RA_VAL); log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_read_ra_val : %d",_queue_head->_read_ra_val); log_printf(TRACE,Read_queue,FUNCTION," * in_GPR_READ_ACK [0] : %d",PORT_READ(in_GPR_READ_ACK [0])); log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_READ_RB_VAL : %d",internal_READ_QUEUE_OUT_READ_RB_VAL); log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_read_rb_val : %d",_queue_head->_read_rb_val); log_printf(TRACE,Read_queue,FUNCTION," * in_GPR_READ_ACK [1] : %d",PORT_READ(in_GPR_READ_ACK [1])); log_printf(TRACE,Read_queue,FUNCTION," * internal_READ_QUEUE_OUT_READ_RC_VAL : %d",internal_READ_QUEUE_OUT_READ_RC_VAL); log_printf(TRACE,Read_queue,FUNCTION," * _queue_head->_read_rc_val : %d",_queue_head->_read_rc_val); log_printf(TRACE,Read_queue,FUNCTION," * in_SPR_READ_ACK [0] : %d",PORT_READ(in_SPR_READ_ACK [0])); log_end(Read_queue,FUNCTION); }; }; // end namespace read_queue }; // end namespace read_unit }; // end namespace multi_read_unit }; // end namespace execute_loop }; // end namespace multi_execute_loop }; // end namespace core }; // end namespace behavioural }; // end namespace morpheo #endif