/* * Copyright (c) 2011 Stephen Williams (steve@icarus.com) * * This source code is free software; you can redistribute it * and/or modify it in source code form under the terms of the GNU * General Public License as published by the Free Software * Foundation; either version 2 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ # include "architec.h" # include "entity.h" # include "expression.h" # include "sequential.h" # include "vsignal.h" # include # include # include int Scope::emit_signals(ostream&out, Entity*entity, Architecture*arc) { int errors = 0; for (map::iterator cur = old_signals_.begin() ; cur != old_signals_.end() ; ++cur) { errors += cur->second->emit(out, entity, arc); } for (map::iterator cur = new_signals_.begin() ; cur != new_signals_.end() ; ++cur) { errors += cur->second->emit(out, entity, arc); } return errors; } int Architecture::emit(ostream&out, Entity*entity) { int errors = 0; for (map::iterator cur = old_constants_.begin() ; cur != old_constants_.end() ; ++cur) { out << "localparam " << cur->first << " = "; errors += cur->second->val->emit(out, entity, this); out << ";" << endl; } for (map::iterator cur = new_constants_.begin() ; cur != new_constants_.end() ; ++cur) { out << "localparam " << cur->first << " = "; errors += cur->second->val->emit(out, entity, this); out << ";" << endl; } errors += emit_signals(out, entity, this); for (list::iterator cur = statements_.begin() ; cur != statements_.end() ; ++cur) { errors += (*cur)->emit(out, entity, this); } return errors; } int Architecture::Statement::emit(ostream&out, Entity*, Architecture*) { out << " // " << get_fileline() << ": internal error: " << "I don't know how to emit this statement! " << "type=" << typeid(*this).name() << endl; return 1; } int SignalAssignment::emit(ostream&out, Entity*ent, Architecture*arc) { int errors = 0; assert(rval_.size() == 1); Expression*rval = rval_.front(); out << "// " << get_fileline() << endl; out << "assign "; errors += lval_->emit(out, ent, arc); out << " = "; errors += rval->emit(out, ent, arc); out << ";" << endl; return errors; } int ComponentInstantiation::emit(ostream&out, Entity*ent, Architecture*arc) { int errors = 0; out << cname_ << " " << iname_ << "("; const char*comma = ""; for (multimap::iterator cur = port_map_.begin() ; cur != port_map_.end() ; ++cur) { // Skip unconnected ports if (cur->second == 0) continue; out << comma << "." << cur->first << "("; errors += cur->second->emit(out, ent, arc); out << ")"; comma = ", "; } out << ");" << endl; return errors; } int ProcessStatement::emit(ostream&out, Entity*ent, Architecture*arc) { int errors = 0; out << "always"; if (! sensitivity_list_.empty()) { out << " @("; const char*comma = 0; for (list::iterator cur = sensitivity_list_.begin() ; cur != sensitivity_list_.end() ; ++cur) { if (comma) out << comma; errors += (*cur)->emit(out, ent, arc); comma = ", "; } out << ")"; } out << " begin" << endl; for (list::iterator cur = statements_list_.begin() ; cur != statements_list_.end() ; ++cur) { (*cur)->emit(out, ent, arc); } out << "end" << endl; return errors; }