/* * Copyright (c) 2000-2010 Stephen Williams (steve@picturel.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 "config.h" # include "compiler.h" /* * This file contains implementation of the NetForce, NetRelease, * NetCAssign and NetDeassign classes. These are similar or related in * that they handle the procedural continuous assign and force * statements. */ # include "netlist.h" # include /* * Construct the procedural continuous assignment statement. This is a * bit different from a normal assignment because the the lval is only * intermittently connected. The deassign in particular disconnects * the signals when they are not being assigned anymore. Because of * this, there is no other reference to the lval to make it stay put * so we increment the eref. * * XXXX I'm not sure this is the right way. Perhaps I should create * output pins to connect to the netlist? But that would cause the * link ring to grow, and that is not quite correct either. Hmm... */ NetCAssign::NetCAssign(NetScope*s, perm_string n, NetNet*l) : NetNode(s, n, l->pin_count()), lval_(l) { lval_->incr_eref(); for (unsigned idx = 0 ; idx < pin_count() ; idx += 1) { pin(idx).set_dir(Link::INPUT); pin(idx).set_name(perm_string::literal("I"), idx); } } NetCAssign::~NetCAssign() { lval_->decr_eref(); } const NetNet* NetCAssign::lval() const { return lval_; } const Link& NetCAssign::lval_pin(unsigned idx) const { assert(idx < lval_->pin_count()); return lval_->pin(idx); } NetDeassign::NetDeassign(NetNet*l) : lval_(l) { lval_->incr_eref(); } NetDeassign::~NetDeassign() { lval_->decr_eref(); } const NetNet*NetDeassign::lval() const { return lval_; } NetForce::NetForce(NetScope*s, perm_string n, NetNet*l) : NetNode(s, n, l->pin_count()), lval_(l) { lval_->incr_eref(); for (unsigned idx = 0 ; idx < pin_count() ; idx += 1) { pin(idx).set_dir(Link::INPUT); pin(idx).set_name(perm_string::literal("I"), idx); } } NetForce::~NetForce() { lval_->decr_eref(); } const Link& NetForce::lval_pin(unsigned idx) const { assert(idx < lval_->pin_count()); return lval_->pin(idx); } const NetNet* NetForce::lval() const { return lval_; } NetRelease::NetRelease(NetNet*l) : lval_(l) { /* Put myself into a release list that the net is keeping. This is so that the NetNet can detach itself if and when it is deleted by the optimizer. */ release_next_ = lval_->release_list_; lval_->release_list_ = this; } NetRelease::~NetRelease() { assert(lval_ == 0); } const NetNet*NetRelease::lval() const { return lval_; }