137 lines
3.7 KiB
OpenEdge ABL
137 lines
3.7 KiB
OpenEdge ABL
%module dcalc
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%{
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// OpenSTA, Static Timing Analyzer
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// Copyright (c) 2024, Parallax Software, Inc.
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <https://www.gnu.org/licenses/>.
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#include "Sta.hh"
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#include "ArcDelayCalc.hh"
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#include "dcalc/ArcDcalcWaveforms.hh"
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%}
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%inline %{
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StringSeq
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delay_calc_names()
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{
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return sta::delayCalcNames();
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}
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bool
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is_delay_calc_name(const char *alg)
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{
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return sta::isDelayCalcName(alg);
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}
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void
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set_delay_calculator_cmd(const char *alg)
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{
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sta::Sta::sta()->setArcDelayCalc(alg);
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}
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void
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set_delay_calc_incremental_tolerance(float tol)
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{
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sta::Sta::sta()->setIncrementalDelayTolerance(tol);
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}
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string
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report_delay_calc_cmd(Edge *edge,
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TimingArc *arc,
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const Corner *corner,
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const MinMax *min_max,
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int digits)
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{
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cmdLinkedNetwork();
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return Sta::sta()->reportDelayCalc(edge, arc, corner, min_max, digits);
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}
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////////////////////////////////////////////////////////////////
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Table1
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ccs_input_waveform(const Pin *in_pin,
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const RiseFall *in_rf,
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const Corner *corner,
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const MinMax *min_max)
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{
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cmdLinkedNetwork();
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Sta *sta = Sta::sta();
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ArcDcalcWaveforms *arc_dcalc = dynamic_cast<ArcDcalcWaveforms*>(sta->arcDelayCalc());
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if (arc_dcalc)
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return arc_dcalc->inputWaveform(in_pin, in_rf, corner, min_max);
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else
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return Table1();
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}
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Table1
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ccs_driver_waveform(const Pin *in_pin,
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const RiseFall *in_rf,
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const Pin *drvr_pin,
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const RiseFall *drvr_rf,
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const Corner *corner,
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const MinMax *min_max)
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{
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cmdLinkedNetwork();
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Sta *sta = Sta::sta();
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ArcDcalcWaveforms *arc_dcalc = dynamic_cast<ArcDcalcWaveforms*>(sta->arcDelayCalc());
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if (arc_dcalc)
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return arc_dcalc->drvrWaveform(in_pin, in_rf, drvr_pin, drvr_rf, corner, min_max);
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else
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return Table1();
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}
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Table1
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ccs_driver_ramp_waveform(const Pin *in_pin,
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const RiseFall *in_rf,
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const Pin *drvr_pin,
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const RiseFall *drvr_rf,
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const Pin *load_pin,
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const Corner *corner,
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const MinMax *min_max)
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{
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cmdLinkedNetwork();
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Sta *sta = Sta::sta();
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ArcDcalcWaveforms *arc_dcalc = dynamic_cast<ArcDcalcWaveforms*>(sta->arcDelayCalc());
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if (arc_dcalc)
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return arc_dcalc->drvrRampWaveform(in_pin, in_rf, drvr_pin, drvr_rf,
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load_pin, corner, min_max);
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else
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return Table1();
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}
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Table1
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ccs_load_waveform(const Pin *in_pin,
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const RiseFall *in_rf,
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const Pin *drvr_pin,
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const RiseFall *drvr_rf,
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const Pin *load_pin,
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const Corner *corner,
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const MinMax *min_max)
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{
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cmdLinkedNetwork();
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Sta *sta = Sta::sta();
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ArcDcalcWaveforms *arc_dcalc = dynamic_cast<ArcDcalcWaveforms*>(sta->arcDelayCalc());
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if (arc_dcalc)
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return arc_dcalc->loadWaveform(in_pin, in_rf, drvr_pin, drvr_rf,
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load_pin, corner, min_max);
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else
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return Table1();
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}
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%} // inline
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