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PGate.cc
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PGate.cc
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/*
* Copyright (c) 1999-2019 Stephen Williams ([email protected])
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
# include "config.h"
# include "PGate.h"
# include "PExpr.h"
# include "verinum.h"
# include <cassert>
void PGate::set_pins_(list<PExpr*>*pins)
{
assert(pins);
assert(pins->size() == pins_.size());
for (size_t idx = 0 ; idx < pins_.size() ; idx += 1) {
pins_[idx] = pins->front();
pins->pop_front();
}
assert(pins->empty());
delete pins;
}
PGate::PGate(perm_string name, list<PExpr*>*pins, const list<PExpr*>*del)
: name_(name), pins_(pins? pins->size() : 0)
{
if (pins) set_pins_(pins);
if (del) delay_.set_delays(del);
str0_ = IVL_DR_STRONG;
str1_ = IVL_DR_STRONG;
}
PGate::PGate(perm_string name, list<PExpr*>*pins, PExpr*del)
: name_(name), pins_(pins? pins->size() : 0)
{
if (pins) set_pins_(pins);
if (del) delay_.set_delay(del);
str0_ = IVL_DR_STRONG;
str1_ = IVL_DR_STRONG;
}
PGate::PGate(perm_string name, list<PExpr*>*pins)
: name_(name), pins_(pins? pins->size() : 0)
{
if (pins) set_pins_(pins);
str0_ = IVL_DR_STRONG;
str1_ = IVL_DR_STRONG;
}
PGate::~PGate()
{
}
ivl_drive_t PGate::strength0() const
{
return str0_;
}
void PGate::strength0(ivl_drive_t s)
{
str0_ = s;
}
ivl_drive_t PGate::strength1() const
{
return str1_;
}
void PGate::strength1(ivl_drive_t s)
{
str1_ = s;
}
void PGate::elaborate_scope(Design*, NetScope*) const
{
}
/*
* This method is used during elaboration to calculate the
* rise/fall/decay times for the gate. These values were set in pform
* by the constructor, so here I evaluate the expression in the given
* design context and save the calculated delays into the output
* parameters. This method understands how to handle the different
* numbers of expressions.
*/
void PGate::eval_delays(Design*des, NetScope*scope,
NetExpr*&rise_expr,
NetExpr*&fall_expr,
NetExpr*&decay_expr,
bool as_net_flag) const
{
delay_.eval_delays(des, scope,
rise_expr, fall_expr, decay_expr,
as_net_flag);
}
unsigned PGate::delay_count() const
{
return delay_.delay_count();
}
PNamedItem::SymbolType PGate::symbol_type() const
{
return INSTANCE;
}
PGAssign::PGAssign(list<PExpr*>*pins)
: PGate(perm_string(), pins)
{
assert(pin_count() == 2);
}
PGAssign::PGAssign(list<PExpr*>*pins, list<PExpr*>*dels)
: PGate(perm_string(), pins, dels)
{
assert(pin_count() == 2);
}
PGAssign::~PGAssign()
{
}
PGBuiltin::PGBuiltin(Type t, perm_string name,
list<PExpr*>*pins,
list<PExpr*>*del)
: PGate(name, pins, del), type_(t), msb_(0), lsb_(0)
{
}
PGBuiltin::PGBuiltin(Type t, perm_string name,
list<PExpr*>*pins,
PExpr*del)
: PGate(name, pins, del), type_(t), msb_(0), lsb_(0)
{
}
PGBuiltin::~PGBuiltin()
{
}
void PGBuiltin::set_range(PExpr*msb, PExpr*lsb)
{
assert(msb_ == 0);
assert(lsb_ == 0);
msb_ = msb;
lsb_ = lsb;
}
const char* PGBuiltin::gate_name() const
{
switch(type_) {
case AND:
return "AND";
break;
case NAND:
return "NAND";
break;
case OR:
return "OR";
break;
case NOR:
return "NOR";
break;
case XOR:
return "XOR";
break;
case XNOR:
return "XNOR";
break;
case BUF:
return "BUF";
break;
case NOT:
return "NOT";
break;
case BUFIF0:
return "BUFIF0";
break;
case NOTIF0:
return "NOTIF0";
break;
case BUFIF1:
return "BUFIF1";
break;
case NOTIF1:
return "NOTIF1";
break;
case NMOS:
return "NMOS";
break;
case RNMOS:
return "RNMOS";
break;
case PMOS:
return "PMOS";
break;
case RPMOS:
return "RPMOS";
break;
case TRAN:
return "TRAN";
break;
case RTRAN:
return "RTRAN";
break;
case TRANIF0:
return "TRANIF0";
break;
case RTRANIF0:
return "RTRANIF0";
break;
case TRANIF1:
return "TRANIF1";
break;
case RTRANIF1:
return "RTRANIF1";
break;
case CMOS:
return "CMOS";
break;
case RCMOS:
return "RCMOS";
break;
case PULLUP:
return "PULLUP";
break;
case PULLDOWN:
return "PULLDOWN";
break;
}
return "<unknown>";
}
PGModule::PGModule(perm_string type, perm_string name, list<PExpr*>*pins)
: PGate(name, pins), bound_type_(0), type_(type), overrides_(0), pins_(0),
npins_(0), parms_(0), nparms_(0), msb_(0), lsb_(0)
{
}
PGModule::PGModule(perm_string type, perm_string name,
named<PExpr*>*pins, unsigned npins)
: PGate(name, 0), bound_type_(0), type_(type), overrides_(0), pins_(pins),
npins_(npins), parms_(0), nparms_(0), msb_(0), lsb_(0)
{
}
PGModule::PGModule(Module*type, perm_string name)
: PGate(name, 0), bound_type_(type), overrides_(0), pins_(0),
npins_(0), parms_(0), nparms_(0), msb_(0), lsb_(0)
{
}
PGModule::~PGModule()
{
}
void PGModule::set_parameters(list<PExpr*>*o)
{
assert(overrides_ == 0);
overrides_ = o;
}
void PGModule::set_parameters(named<PExpr*>*pa, unsigned npa)
{
assert(parms_ == 0);
assert(overrides_ == 0);
parms_ = pa;
nparms_ = npa;
}
void PGModule::set_range(PExpr*msb, PExpr*lsb)
{
assert(msb_ == 0);
assert(lsb_ == 0);
msb_ = msb;
lsb_ = lsb;
}
perm_string PGModule::get_type() const
{
return type_;
}