/***************************************************************************** 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. *****************************************************************************/ /***************************************************************************** dist.h -- Definition of the odometers. Original Author: Ali Dasdan, Synopsys, Inc. *****************************************************************************/ /***************************************************************************** MODIFICATION LOG - modifiers, enter your name, affiliation, date and changes you are making here. Name, Affiliation, Date: Description of Modification: *****************************************************************************/ #ifndef DIST_H #define DIST_H SC_MODULE( dist_read_mod ) { // Input ports: sc_in pulse; // Pulse coming from the pulse generator. sc_in start; // Becomes true if the car's started. // Output ports: sc_out ok_for_incr; // Get the pulses for one distance increment. void get_dist_proc(); SC_CTOR( dist_read_mod ) { SC_THREAD( get_dist_proc ); sensitive << pulse.pos(); } }; SC_MODULE( dist_compute_mod ) { // Input ports: sc_in reset; // Reset the partial distance odometer if true. sc_in start; // Becomes true if the car's started. sc_in ok_for_incr; // Output ports: sc_out total_dist; sc_out partial_dist; // Internal variables: static bool prev_reset; static double total_compute_dist; static double partial_compute_dist; // Compute total and partial distances. void compute_total_proc(); void compute_partial_proc(); SC_CTOR( dist_compute_mod ) { SC_METHOD( compute_total_proc ); sensitive << ok_for_incr; SC_METHOD( compute_partial_proc ); sensitive << ok_for_incr; prev_reset = false; total_compute_dist = 0.0; partial_compute_dist = 0.0; } }; SC_MODULE( dist_lcd_mod ) { // Input ports: sc_in start; // Becomes true if the car's started. sc_in total_dist; sc_in partial_dist; // Output ports: sc_out total; // Total distance. sc_out partial; // Partial distance. // LCD display driver. void lcd_driver_proc(); SC_CTOR( dist_lcd_mod ) { SC_METHOD( lcd_driver_proc ); sensitive << total_dist << partial_dist; } }; SC_MODULE( dist_mod ) { // Ports: sc_in pulse; // Pulse coming ftom the pulse generator. sc_in reset; // Reset the partial distance odometer if true. sc_in start; // Becomes true if the car's started. // Output ports: sc_out total; // Total distance. sc_out partial; // Partial distance. // Internal signals: sc_signal ok_for_incr; sc_signal total_dist; sc_signal partial_dist; // Internal models: dist_read_mod *read_mod; dist_compute_mod *compute_mod; dist_lcd_mod *lcd_mod; SC_CTOR( dist_mod ) { read_mod = new dist_read_mod("read_mod"); compute_mod = new dist_compute_mod("compute_mod"); lcd_mod = new dist_lcd_mod("lcd_mod"); read_mod->pulse.bind(pulse); read_mod->start.bind(start); read_mod->ok_for_incr.bind(ok_for_incr); compute_mod->reset.bind(reset); compute_mod->start.bind(start); compute_mod->ok_for_incr.bind(ok_for_incr); compute_mod->total_dist.bind(total_dist); compute_mod->partial_dist.bind(partial_dist); lcd_mod->start.bind(start); lcd_mod->total_dist.bind(total_dist); lcd_mod->partial_dist.bind(partial_dist); lcd_mod->total.bind(total); lcd_mod->partial.bind(partial); ok_for_incr = false; total_dist = 0.0; partial_dist = 0.0; } }; #endif