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DeratingFactors.cc
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// OpenSTA, Static Timing Analyzer
// Copyright (c) 2020, Parallax Software, Inc.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 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, see <https://www.gnu.org/licenses/>.
#include "DeratingFactors.hh"
namespace sta {
inline int
TimingDerateIndex(TimingDerateType type)
{
return int(type);
}
DeratingFactors::DeratingFactors()
{
clear();
}
void
DeratingFactors::setFactor(PathClkOrData clk_data,
const RiseFallBoth *rf,
const EarlyLate *early_late,
float factor)
{
for (auto tr1 : rf->range())
factors_[int(clk_data)].setValue(tr1, early_late, factor);
}
void
DeratingFactors::factor(PathClkOrData clk_data,
const RiseFall *rf,
const EarlyLate *early_late,
float &factor,
bool &exists) const
{
factors_[int(clk_data)].value(rf, early_late, factor, exists);
}
void
DeratingFactors::clear()
{
for (int clk_data = 0; clk_data < path_clk_or_data_count;clk_data++)
factors_[int(clk_data)].clear();
}
void
DeratingFactors::isOneValue(const EarlyLate *early_late,
bool &is_one_value,
float &value) const
{
bool is_one_value0, is_one_value1;
float value0, value1;
is_one_value0 = factors_[0].isOneValue(early_late, value0);
is_one_value1 = factors_[1].isOneValue(early_late, value1);
is_one_value = is_one_value0
&& is_one_value1
&& value0 == value1;
value = value1;
}
void
DeratingFactors::isOneValue(PathClkOrData clk_data,
const EarlyLate *early_late,
bool &is_one_value,
float &value) const
{
is_one_value = factors_[int(clk_data)].isOneValue(early_late, value);
}
bool
DeratingFactors::hasValue() const
{
return factors_[0].hasValue()
|| factors_[1].hasValue();
}
////////////////////////////////////////////////////////////////
DeratingFactorsGlobal::DeratingFactorsGlobal()
{
clear();
}
void
DeratingFactorsGlobal::setFactor(TimingDerateType type,
PathClkOrData clk_data,
const RiseFallBoth *rf,
const EarlyLate *early_late,
float factor)
{
factors_[TimingDerateIndex(type)].setFactor(clk_data, rf, early_late, factor);
}
void
DeratingFactorsGlobal::factor(TimingDerateType type,
PathClkOrData clk_data,
const RiseFall *rf,
const EarlyLate *early_late,
float &factor,
bool &exists) const
{
factors_[TimingDerateIndex(type)].factor(clk_data, rf, early_late, factor, exists);
}
void
DeratingFactorsGlobal::clear()
{
for (int type = 0; type < timing_derate_type_count; type++)
factors_[type].clear();
}
DeratingFactors *
DeratingFactorsGlobal::factors(TimingDerateType type)
{
return &factors_[TimingDerateIndex(type)];
}
////////////////////////////////////////////////////////////////
DeratingFactorsCell::DeratingFactorsCell()
{
clear();
}
void
DeratingFactorsCell::setFactor(TimingDerateType type,
PathClkOrData clk_data,
const RiseFallBoth *rf,
const EarlyLate *early_late,
float factor)
{
factors_[TimingDerateIndex(type)].setFactor(clk_data, rf, early_late, factor);
}
void
DeratingFactorsCell::factor(TimingDerateType type,
PathClkOrData clk_data,
const RiseFall *rf,
const EarlyLate *early_late,
float &factor,
bool &exists) const
{
factors_[TimingDerateIndex(type)].factor(clk_data, rf, early_late, factor, exists);
}
void
DeratingFactorsCell::clear()
{
for (int type = 0; type < timing_derate_cell_type_count; type++)
factors_[type].clear();
}
DeratingFactors *
DeratingFactorsCell::factors(TimingDerateType type)
{
return &factors_[TimingDerateIndex(type)];
}
void
DeratingFactorsCell::isOneValue(const EarlyLate *early_late,
bool &is_one_value,
float &value) const
{
bool is_one_value1, is_one_value2;
float value1, value2;
factors_[TimingDerateIndex(TimingDerateType::cell_delay)]
.isOneValue(early_late, is_one_value1, value1);
factors_[TimingDerateIndex(TimingDerateType::cell_check)]
.isOneValue(early_late, is_one_value2, value2);
is_one_value = is_one_value1
&& is_one_value2
&& value1 == value2;
value = value1;
}
////////////////////////////////////////////////////////////////
DeratingFactorsNet::DeratingFactorsNet()
{
}
} // namespace