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/*
* Copyright (c) 2000-2008 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 "config.h"
# include <iostream>
# include "netlist.h"
# include <sstream>
# include <cstring>
# include <string>
# include <typeinfo>
#ifdef HAVE_MALLOC_H
# include <malloc.h>
#endif
void connect(Nexus*l, Link&r)
{
assert(l);
assert(r.nexus_);
if (l == r.nexus_)
return;
Nexus*tmp = r.nexus_;
while (Link*cur = tmp->list_) {
tmp->list_ = cur->next_;
cur->nexus_ = 0;
cur->next_ = 0;
l->relink(cur);
}
l->driven_ = Nexus::NO_GUESS;
assert(tmp->list_ == 0);
delete tmp;
}
void connect(Link&l, Link&r)
{
assert(&l != &r);
if (r.is_linked() && !l.is_linked())
connect(r.nexus_, l);
else
connect(l.nexus_, r);
}
Link::Link()
: dir_(PASSIVE), drive0_(STRONG), drive1_(STRONG), init_(verinum::Vx),
inst_(0), next_(0), nexus_(0)
{
(new Nexus()) -> relink(this);
}
Link::~Link()
{
assert(nexus_);
Nexus*tmp = nexus_;
nexus_->unlink(this);
if (tmp->list_ == 0)
delete tmp;
}
Nexus* Link::nexus()
{
return nexus_;
}
const Nexus* Link::nexus() const
{
return nexus_;
}
void Link::set_dir(DIR d)
{
dir_ = d;
}
Link::DIR Link::get_dir() const
{
return dir_;
}
void Link::drivers_delays(NetExpr*rise, NetExpr*fall, NetExpr*decay)
{
nexus_->drivers_delays(rise, fall, decay);
}
void Link::drive0(Link::strength_t str)
{
drive0_ = str;
}
void Link::drive1(Link::strength_t str)
{
drive1_ = str;
}
Link::strength_t Link::drive0() const
{
return drive0_;
}
Link::strength_t Link::drive1() const
{
return drive1_;
}
void Link::set_init(verinum::V val)
{
init_ = val;
}
verinum::V Link::get_init() const
{
return init_;
}
void Link::cur_link(NetObj*&net, unsigned &pin)
{
net = node_;
pin = pin_;
}
void Link::cur_link(const NetObj*&net, unsigned &pin) const
{
net = node_;
pin = pin_;
}
void Link::unlink()
{
assert(nexus_);
if (! is_linked())
return;
nexus_->unlink(this);
(new Nexus()) -> relink(this);
}
bool Link::is_equal(const Link&that) const
{
return (node_ == that.node_) && (pin_ == that.pin_);
}
bool Link::is_linked() const
{
if (next_)
return true;
if (nexus_->first_nlink() != this)
return true;
return false;
}
bool Link::is_linked(const Link&that) const
{
return nexus_ == that.nexus_;
}
Link* Link::next_nlink()
{
return next_;
}
const Link* Link::next_nlink() const
{
return next_;
}
const NetObj*Link::get_obj() const
{
return node_;
}
NetObj*Link::get_obj()
{
return node_;
}
unsigned Link::get_pin() const
{
return pin_;
}
void Link::set_name(perm_string n, unsigned i)
{
name_ = n;
inst_ = i;
}
perm_string Link::get_name() const
{
return name_;
}
unsigned Link::get_inst() const
{
return inst_;
}
Nexus::Nexus()
{
name_ = 0;
list_ = 0;
driven_ = NO_GUESS;
t_cookie_ = 0;
}
Nexus::~Nexus()
{
assert(list_ == 0);
if (name_)
delete[]name_;
}
verinum::V Nexus::get_init() const
{
assert(list_);
for (Link*cur = list_ ; cur ; cur = cur->next_) {
if (cur->get_dir() == Link::OUTPUT)
return verinum::Vx;
if ((cur->get_dir() == Link::PASSIVE)
&& (cur->get_init() != verinum::Vz))
return cur->get_init();
}
return verinum::Vz;
}
bool Nexus::drivers_present() const
{
assert(list_);
for (Link*cur = list_ ; cur ; cur = cur->next_) {
if (cur->get_dir() == Link::OUTPUT)
return true;
if (cur->get_dir() == Link::INPUT)
continue;
// Must be PASSIVE, so if it is some kind of net, see if
// it is the sort that might drive the nexus.
const NetObj*obj;
unsigned pin;
cur->cur_link(obj, pin);
if (const NetNet*net = dynamic_cast<const NetNet*>(obj))
switch (net->type()) {
case NetNet::SUPPLY0:
case NetNet::SUPPLY1:
case NetNet::TRI0:
case NetNet::TRI1:
case NetNet::WAND:
case NetNet::WOR:
case NetNet::TRIAND:
case NetNet::TRIOR:
case NetNet::REG:
return true;
default:
break;
}
}
return false;
}
void Nexus::drivers_delays(NetExpr*rise, NetExpr*fall, NetExpr*decay)
{
for (Link*cur = list_ ; cur ; cur = cur->next_) {
if (cur->get_dir() != Link::OUTPUT)
continue;
NetObj*obj = cur->get_obj();
obj->rise_time(rise);
obj->fall_time(fall);
obj->decay_time(decay);
}
}
void Nexus::unlink(Link*that)
{
if (name_) {
delete[] name_;
name_ = 0;
}
/* If the link I'm removing was a driver for this nexus, then
cancel my guess of the driven value. */
if (that->get_dir() != Link::INPUT)
driven_ = NO_GUESS;
assert(that);
if (list_ == that) {
list_ = that->next_;
that->next_ = 0;
that->nexus_ = 0;
return;
}
Link*cur = list_;
while (cur->next_ != that) {
assert(cur->next_);
cur = cur->next_;
}
cur->next_ = that->next_;
that->nexus_ = 0;
that->next_ = 0;
}
void Nexus::relink(Link*that)
{
if (name_) {
delete[] name_;
name_ = 0;
}
/* If the link I'm adding is a driver for this nexus, then
cancel my guess of the driven value. */
if (that->get_dir() != Link::INPUT)
driven_ = NO_GUESS;
assert(that->nexus_ == 0);
assert(that->next_ == 0);
that->next_ = list_;
that->nexus_ = this;
list_ = that;
}
Link* Nexus::first_nlink()
{
return list_;
}
const Link* Nexus::first_nlink() const
{
return list_;
}
ivl_nexus_t Nexus::t_cookie() const
{
return t_cookie_;
}
ivl_nexus_t Nexus::t_cookie(ivl_nexus_t val)const
{
ivl_nexus_t tmp = t_cookie_;
t_cookie_ = val;
return tmp;
}
unsigned Nexus::vector_width() const
{
for (const Link*cur = first_nlink() ; cur ; cur = cur->next_nlink()) {
const NetNet*sig = dynamic_cast<const NetNet*>(cur->get_obj());
if (sig == 0)
continue;
return sig->vector_width();
}
return 0;
}
NetNet* Nexus::pick_any_net()
{
for (Link*cur = first_nlink() ; cur ; cur = cur->next_nlink()) {
NetNet*sig = dynamic_cast<NetNet*>(cur->get_obj());
if (sig != 0)
return sig;
}
return 0;
}
const char* Nexus::name() const
{
if (name_)
return name_;
const NetNet*sig = 0;
unsigned pin = 0;
for (const Link*cur = first_nlink()
; cur ; cur = cur->next_nlink()) {
const NetNet*cursig = dynamic_cast<const NetNet*>(cur->get_obj());
if (cursig == 0)
continue;
if (sig == 0) {
sig = cursig;
pin = cur->get_pin();
continue;
}
if ((cursig->pin_count() == 1) && (sig->pin_count() > 1))
continue;
if ((cursig->pin_count() > 1) && (sig->pin_count() == 1)) {
sig = cursig;
pin = cur->get_pin();
continue;
}
if (cursig->local_flag() && !sig->local_flag())
continue;
if (cursig->name() < sig->name())
continue;
sig = cursig;
pin = cur->get_pin();
}
if (sig == 0) {
const Link*lnk = first_nlink();
const NetObj*obj = lnk->get_obj();
pin = lnk->get_pin();
cerr << "internal error: No signal for nexus of " <<
obj->name() << " pin " << pin << "(" <<
lnk->get_name() << "<" << lnk->get_inst() << ">)"
" type=" << typeid(*obj).name() << "?" << endl;
}
assert(sig);
ostringstream tmp;
tmp << scope_path(sig->scope()) << "." << sig->name();
if (sig->pin_count() > 1)
tmp << "<" << pin << ">";
const string tmps = tmp.str();
name_ = new char[strlen(tmps.c_str()) + 1];
strcpy(name_, tmps.c_str());
return name_;
}
NexusSet::NexusSet()
{
items_ = 0;
nitems_ = 0;
}
NexusSet::~NexusSet()
{
if (nitems_ > 0) {
assert(items_ != 0);
free(items_);
} else {
assert(items_ == 0);
}
}
unsigned NexusSet::count() const
{
return nitems_;
}
void NexusSet::add(Nexus*that)
{
if (nitems_ == 0) {
assert(items_ == 0);
items_ = (Nexus**)malloc(sizeof(Nexus*));
items_[0] = that;
nitems_ = 1;
return;
}
unsigned ptr = bsearch_(that);
if (ptr < nitems_) {
assert(items_[ptr] == that);
return;
}
assert(ptr == nitems_);
items_ = (Nexus**)realloc(items_, (nitems_+1) * sizeof(Nexus*));
items_[ptr] = that;
nitems_ += 1;
}
void NexusSet::add(const NexusSet&that)
{
for (unsigned idx = 0 ; idx < that.nitems_ ; idx += 1)
add(that.items_[idx]);
}
void NexusSet::rem(Nexus*that)
{
if (nitems_ == 0)
return;
unsigned ptr = bsearch_(that);
if (ptr >= nitems_)
return;
if (nitems_ == 1) {
free(items_);
items_ = 0;
nitems_ = 0;
return;
}
for (unsigned idx = ptr ; idx < (nitems_-1) ; idx += 1)
items_[idx] = items_[idx+1];
items_ = (Nexus**)realloc(items_, (nitems_-1) * sizeof(Nexus*));
nitems_ -= 1;
}
void NexusSet::rem(const NexusSet&that)
{
for (unsigned idx = 0 ; idx < that.nitems_ ; idx += 1)
rem(that.items_[idx]);
}
Nexus* NexusSet::operator[] (unsigned idx) const
{
assert(idx < nitems_);
return items_[idx];
}
unsigned NexusSet::bsearch_(Nexus*that) const
{
for (unsigned idx = 0 ; idx < nitems_ ; idx += 1) {
if (items_[idx] == that)
return idx;
}
return nitems_;
}
bool NexusSet::contains(const NexusSet&that) const
{
for (unsigned idx = 0 ; idx < that.nitems_ ; idx += 1) {
unsigned where = bsearch_(that[idx]);
if (where == nitems_)
return false;
if (items_[where] != that[idx])
return false;
}
return true;
}
bool NexusSet::intersect(const NexusSet&that) const
{
for (unsigned idx = 0 ; idx < that.nitems_ ; idx += 1) {
unsigned where = bsearch_(that[idx]);
if (where == nitems_)
continue;
if (items_[where] == that[idx])
return true;
}
return false;
}
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