coriolis/katabatic/src/KatabaticEngine.cpp

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// -*- C++ -*-
//
// This file is part of the Coriolis Software.
// Copyright (c) UPMC/LIP6 2008-2013, All Rights Reserved
//
// +-----------------------------------------------------------------+
// | C O R I O L I S |
// | K a t a b a t i c - Routing Toolbox |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@lip6.fr |
// | =============================================================== |
// | C++ Module : "./KatabaticEngine.cpp" |
// +-----------------------------------------------------------------+
#include <iostream>
#include <fstream>
#include "hurricane/DebugSession.h"
#include "hurricane/Bug.h"
#include "hurricane/Error.h"
#include "hurricane/Warning.h"
#include "hurricane/DataBase.h"
#include "hurricane/Technology.h"
#include "hurricane/Layer.h"
#include "hurricane/BasicLayer.h"
#include "hurricane/NetExternalComponents.h"
#include "hurricane/Cell.h"
#include "crlcore/Utilities.h"
#include "crlcore/Catalog.h"
#include "crlcore/Measures.h"
#include "crlcore/AllianceFramework.h"
#include "katabatic/Session.h"
#include "katabatic/AutoContact.h"
#include "katabatic/AutoSegment.h"
#include "katabatic/GCell.h"
#include "katabatic/GCellGrid.h"
#include "katabatic/KatabaticEngine.h"
namespace {
using namespace Hurricane;
bool isTopAndBottomConnected ( Segment* segment, set<const Layer*>& layers )
{
ltrace(88) << "* Potential Null Length: " << segment << endl;
ltracein(88);
Contact* source = dynamic_cast<Contact*>(segment->getSource());
Contact* target = dynamic_cast<Contact*>(segment->getTarget());
layers.clear();
if (source != NULL) {
forEach ( Hook*, ihook, source->getBodyHook()->getSlaveHooks() ) {
ltrace(88) << "* Slave: " << (*ihook)->getComponent() << endl;
if ((*ihook)->getComponent() == segment) continue;
layers.insert( (*ihook)->getComponent()->getLayer() );
}
}
if (target != NULL) {
forEach ( Hook*, ihook, target->getBodyHook()->getSlaveHooks() ) {
ltrace(88) << "* Slave: " << (*ihook)->getComponent() << endl;
if ((*ihook)->getComponent() == segment) continue;
layers.insert( (*ihook)->getComponent()->getLayer() );
}
}
size_t supplemental = (layers.find(segment->getLayer()) == layers.end()) ? 1 : 0;
if ( (source->getAnchor() != NULL) or (target->getAnchor() != NULL) ) supplemental++;
ltraceout(88);
return layers.size()+supplemental > 2;
}
} // End of anonymous namespace.
namespace Katabatic {
using namespace std;
using Hurricane::tab;
using Hurricane::ltracein;
using Hurricane::ltraceout;
using Hurricane::inltrace;
using Hurricane::DebugSession;
using Hurricane::ForEachIterator;
using Hurricane::Bug;
using Hurricane::Error;
using Hurricane::Warning;
using Hurricane::DataBase;
using Hurricane::Technology;
using Hurricane::Layer;
using Hurricane::BasicLayer;
using Hurricane::NetExternalComponents;
using CRL::AllianceFramework;
using CRL::Catalog;
using CRL::CatalogProperty;
using CRL::Measures;
using CRL::addMeasure;
using CRL::getMeasure;
// -------------------------------------------------------------------
// Global Variables.
const char* missingKTBT =
"%s :\n\n"
" Cell %s do not have any Katabatic (or not yet created).\n";
const char* badMethod =
"%s :\n\n"
" No method id %ud (Cell %s).\n";
const char* lookupFailed =
"Katabatic::Extension::getDatas(Segment*) :\n\n"
" Cannot find AutoSegment associated to %s (internal error).\n";
// -------------------------------------------------------------------
// Class : "Katabatic::KatabaticEngine".
Name KatabaticEngine::_toolName = "Katabatic";
KatabaticEngine* KatabaticEngine::get ( const Cell* cell )
{ return static_cast<KatabaticEngine*>(ToolEngine::get(cell,staticGetName())); }
const Name& KatabaticEngine::staticGetName ()
{ return _toolName; }
const Name& KatabaticEngine::getName () const
{ return _toolName; }
KatabaticEngine::KatabaticEngine ( Cell* cell )
: ToolEngine (cell)
, _timer ()
, _state (EngineCreation)
, _flags (EngineDestroyBaseContact)
, _configuration (new ConfigurationConcrete())
, _gcellGrid (NULL)
, _chipTools (cell)
, _routingNets ()
{
addMeasure<size_t>( cell, "Gates"
, AllianceFramework::getInstancesCount(cell,AllianceFramework::IgnoreFeeds
|AllianceFramework::Recursive) );
}
void KatabaticEngine::_postCreate ()
{ ToolEngine::_postCreate(); }
void KatabaticEngine::createDetailedGrid ()
{
_gcellGrid = GCellGrid::create( this );
Session::revalidate();
addMeasure<size_t>( getCell(), "GCells", _gcellGrid->getGCellVector()->size() );
if (getChipTools().isChip()) {
unsigned int columns = _gcellGrid->getColumns();
unsigned int rows = _gcellGrid->getRows();
for ( unsigned int depth=0 ; depth<8 ; ++depth ) {
// West.
forEach( GCell*, igcell, _gcellGrid->getGCellsColumn(depth,0,rows-1)) {
ltrace(89) << "Setting as West Pad:" << (*igcell) << endl;
igcell->setUnderIoPad();
}
// East.
forEach( GCell*, igcell, _gcellGrid->getGCellsColumn(columns-1-depth,0,rows-1)) {
ltrace(89) << "Setting as East Pad:" << (*igcell) << endl;
igcell->setUnderIoPad();
}
// South.
forEach( GCell*, igcell, _gcellGrid->getGCellsRow(depth,0,columns-1)) {
ltrace(89) << "Setting as South Pad:" << (*igcell) << endl;
igcell->setUnderIoPad();
}
// North.
forEach( GCell*, igcell, _gcellGrid->getGCellsRow(rows-1-depth,0,columns-1)) {
ltrace(89) << "Setting as North Pad:" << (*igcell) << endl;
igcell->setUnderIoPad();
}
}
}
}
KatabaticEngine* KatabaticEngine::create ( Cell* cell )
{
ltrace(90) << "KatabaticEngine::create() - " << cell << endl;
KatabaticEngine* katabatic = new KatabaticEngine( cell );
katabatic->_postCreate();
return katabatic;
}
KatabaticEngine::~KatabaticEngine ()
{ delete _configuration; }
void KatabaticEngine::_preDestroy ()
{
ltrace(90) << "Katabatic::_preDestroy ()" << endl;
ltracein(90);
if (getState() < Katabatic::EngineGutted)
setState( Katabatic::EnginePreDestroying );
_gutKatabatic();
_state = EngineGutted;
ltrace(89) << "About to delete base class ToolEngine." << endl;
ToolEngine::_preDestroy();
ltrace(89) << "Exiting Katabatic::_preDestroy()." << endl;
ltraceout(90);
cmess2 << " - GCells := " << GCell::getAllocateds() << endl;
cmess2 << " - AutoContacts := " << AutoContact::getAllocateds() << endl;
cmess2 << " - AutoSegments := " << AutoSegment::getAllocateds() << endl;
}
void KatabaticEngine::_gutKatabatic ()
{
Session::open( this );
unsetFlags( EngineDestroyBaseContact|EngineDestroyBaseSegment );
if (_state == EngineDriving) {
ltracein(90);
ltrace(90) << "Saving AutoContacts/AutoSegments." << endl;
size_t fixedSegments = 0;
AutoSegmentLut::const_iterator isegment = _autoSegmentLut.begin();
for ( ; isegment != _autoSegmentLut.end() ; ++isegment ) {
if ((*isegment).second->isFixed()) fixedSegments++;
}
cmess1 << " o Driving Hurricane data-base." << endl;
cmess1 << Dots::asSizet(" - Active AutoSegments",AutoSegment::getAllocateds()-fixedSegments) << endl;
cmess1 << Dots::asSizet(" - Active AutoContacts",AutoContact::getAllocateds()-fixedSegments*2) << endl;
cmess1 << Dots::asSizet(" - AutoSegments" ,AutoSegment::getAllocateds()) << endl;
cmess1 << Dots::asSizet(" - AutoContacts" ,AutoContact::getAllocateds()) << endl;
forEach ( Net*, inet, _cell->getNets() )
_saveNet( *inet );
//_autoContactLut.clear ();
ltraceout(90);
}
if (_state < EngineGutted ) {
ltrace(90) << "Gutting Katabatic." << endl;
_state = EngineGutted;
setFlags( EngineDestroyBaseContact );
_destroyAutoSegments();
_destroyAutoContacts();
if (_gcellGrid) {
_gcellGrid->destroy();
_gcellGrid = NULL;
}
}
Session::close();
}
AutoSegment* KatabaticEngine::_lookup ( Segment* segment ) const
{
AutoSegmentLut::const_iterator it = _autoSegmentLut.find( segment );
if (it == _autoSegmentLut.end()) return NULL;
return (*it).second;
}
void KatabaticEngine::_link ( AutoSegment* autoSegment )
{
if (_state > EngineActive) return;
_autoSegmentLut[ autoSegment->base() ] = autoSegment;
}
void KatabaticEngine::_unlink ( AutoSegment* autoSegment )
{
if (_state > EngineDriving) return;
AutoSegmentLut::iterator it = _autoSegmentLut.find( autoSegment->base() );
if (it != _autoSegmentLut.end())
_autoSegmentLut.erase( it );
}
AutoContact* KatabaticEngine::_lookup ( Contact* contact ) const
{
AutoContactLut::const_iterator it = _autoContactLut.find( contact );
if (it == _autoContactLut.end()) {
return NULL;
}
return (*it).second;
}
void KatabaticEngine::_link ( AutoContact* autoContact )
{
if (_state > EngineActive) return;
_autoContactLut [ autoContact->base() ] = autoContact;
}
void KatabaticEngine::_unlink ( AutoContact* autoContact )
{
if ( _state > EngineActive ) return;
AutoContactLut::iterator it = _autoContactLut.find( autoContact->base() );
if (it != _autoContactLut.end())
_autoContactLut.erase( it );
}
void KatabaticEngine::xmlWriteGCellGrid ( const string& fileName )
{
ofstream file (fileName.c_str());
xmlWriteGCellGrid( file );
file.close ();
}
void KatabaticEngine::xmlWriteGCellGrid ( ostream& o )
{
if (_gcellGrid)
_gcellGrid->_xmlWrite( o );
else
cerr << Error("Cannot dump GCellGrid: not allocated yet.") << endl;
}
void KatabaticEngine::startMeasures ()
{
_timer.resetIncrease();
_timer.start();
}
void KatabaticEngine::stopMeasures ()
{ _timer.stop(); }
void KatabaticEngine::printMeasures ( const string& tag ) const
{
ostringstream result;
result << Timer::getStringTime(_timer.getCombTime())
<< ", " << Timer::getStringMemory(_timer.getIncrease());
cmess1 << Dots::asString( " - Done in", result.str() ) << endl;
result.str("");
result << _timer.getCombTime()
<< "s, +" << (_timer.getIncrease()>>10) << "Kb/"
<< (_timer.getMemorySize()>>10) << "Kb";
cmess2 << Dots::asString( " - Raw measurements", result.str() ) << endl;
if (not tag.empty()) {
addMeasure<double>( getCell(), tag+"T", _timer.getCombTime () );
addMeasure<size_t>( getCell(), tag+"S", (_timer.getMemorySize() >> 20) );
}
}
bool KatabaticEngine::_check ( const char* message ) const
{
bool coherency = true;
if (message)
cerr << " o checking Katabatic DB (" << message << ")." << endl;
AutoSegmentLut::const_iterator it = _autoSegmentLut.begin();
AutoSegmentLut::const_iterator end = _autoSegmentLut.end ();
for ( ; it != end ; it++ )
coherency = coherency && it->second->_check();
vector<GCell*>::const_iterator itGCell = _gcellGrid->getGCellVector()->begin();
vector<GCell*>::const_iterator endGCell = _gcellGrid->getGCellVector()->end();
for ( ; itGCell != endGCell ; itGCell++ ) {
vector<AutoContact*>::const_iterator itAutoContact = (*itGCell)->getContacts().begin();
vector<AutoContact*>::const_iterator endAutoContact = (*itGCell)->getContacts().end();
for ( ; itAutoContact != endAutoContact ; itAutoContact++ ) {
(*itAutoContact)->checkTopology();
}
}
if (message) cerr << " - completed." << endl;
return coherency;
}
void KatabaticEngine::refresh ( unsigned int flags )
{ if (_gcellGrid) _gcellGrid->updateContacts( flags ); }
void KatabaticEngine::_destroyAutoSegments ()
{
ltrace(90) << "Katabatic::_destroyAutoSegments ()" << endl;
size_t expandeds = 0;
AutoSegmentLut::iterator it = _autoSegmentLut.begin();
AutoSegmentLut::iterator end = _autoSegmentLut.end ();
for ( ; it != end ; it++ ) {
expandeds++;
it->second->destroy();
}
if (_state == EngineDriving)
cerr << " - Expandeds := " << expandeds << endl;
_autoSegmentLut.clear();
}
void KatabaticEngine::_destroyAutoContacts ()
{
ltrace(90) << "Katabatic::_destroyAutoContacts ()" << endl;
AutoContactLut::iterator it = _autoContactLut.begin();
AutoContactLut::iterator end = _autoContactLut.end ();
for ( ; it != end ; it++ )
it->second->destroy();
_autoContactLut.clear();
}
Configuration* KatabaticEngine::getConfiguration ()
{ return _configuration; }
void KatabaticEngine::loadGlobalRouting ( unsigned int method, NetSet& nets )
{
if (_state < EngineGlobalLoaded)
throw Error ("KatabaticEngine::loadGlobalRouting() : global routing not present yet.");
if (_state > EngineGlobalLoaded)
throw Error ("KatabaticEngine::loadGlobalRouting() : global routing already loaded.");
AllianceFramework* af = AllianceFramework::get();
if (nets.empty()) {
forEach ( Net*, net, _cell->getNets() ) {
const char* excludedType = NULL;
if (net->getType() == Net::Type::POWER ) excludedType = "POWER";
if (net->getType() == Net::Type::GROUND) excludedType = "GROUND";
if (net->getType() == Net::Type::CLOCK ) excludedType = "CLOCK";
if (excludedType) {
cparanoid << Warning( "%s is not a routable net (%s,excluded)."
, getString(*net).c_str(), excludedType ) << endl;
continue;
}
if (af->isBLOCKAGE(net->getName())) continue;
_routingNets.insert ( *net );
}
} else {
NetSet::iterator it = nets.begin();
for ( ; it != nets.end() ; it++ ) {
const char* excludedType = NULL;
if ((*it)->getType() == Net::Type::POWER ) excludedType = "POWER";
if ((*it)->getType() == Net::Type::GROUND) excludedType = "GROUND";
if ((*it)->getType() == Net::Type::CLOCK ) excludedType = "CLOCK";
if (af->isBLOCKAGE((*it)->getName())) excludedType = "BLOCKAGE";
if (excludedType) {
cparanoid << Warning( "%s is not a routable net (%s), removed from set."
, getString(*it).c_str(), excludedType ) << endl;
} else
_routingNets.insert( *it );
}
}
switch ( method ) {
case EngineLoadGrByNet: _loadGrByNet(); break;
case EngineLoadGrByGCell:
default:
throw Error( badMethod
, "Katabatic::loadGlobalRouting()"
, method
, getString(_cell).c_str()
);
}
_state = EngineActive;
}
void KatabaticEngine::finalizeLayout ()
{
ltrace(90) << "Katabatic::finalizeLayout()" << endl;
if (_state > EngineDriving) return;
_state = EngineDriving;
startMeasures();
_gutKatabatic();
stopMeasures ();
printMeasures( "fin" );
_state = EngineGutted;
}
void KatabaticEngine::_alignate ( Net* net )
{
DebugSession::open( net, 99 );
ltrace(100) << "Katabatic::_alignate( " << net << " )" << endl;
ltracein(99);
//cmess2 << " - " << getString(net) << endl;
set<Segment*> exploredSegments;
vector<AutoSegment*> unexploreds;
vector<AutoSegment*> aligneds;
forEach ( Component*, icomponent, net->getComponents() ) {
Segment* segment = dynamic_cast<Segment*>(*icomponent);
if (segment) {
AutoSegment* seedSegment = Session::lookup( segment );
if (seedSegment) unexploreds.push_back( seedSegment );
}
}
sort( unexploreds.begin(), unexploreds.end(), AutoSegment::CompareId() );
for ( size_t i=0 ; i<unexploreds.size() ; i++ ) {
AutoSegment* seedSegment = unexploreds[i];
if (exploredSegments.find(seedSegment->base()) == exploredSegments.end()) {
ltrace(99) << "New chunk from: " << seedSegment << endl;
aligneds.push_back( seedSegment );
forEach ( AutoSegment*, collapsed, seedSegment->getAligneds() ) {
ltrace(99) << "Aligned: " << *collapsed << endl;
aligneds.push_back( *collapsed );
exploredSegments.insert( collapsed->base() );
}
ltracein(99);
sort( aligneds.begin(), aligneds.end(), AutoSegment::CompareId() );
ltrace(99) << "Seed: " << (void*)aligneds[0]->base() << " " << aligneds[0] << endl;
for ( size_t j=1 ; j<aligneds.size() ; j++ ) {
ltrace(99) << "Secondary: " << (void*)(aligneds[j]->base()) << " " << aligneds[j] << endl;
}
ltrace(159) << "Align on " << aligneds[0]
<< " " << DbU::getLambda(aligneds[0]->getAxis()) << endl;
aligneds[0]->setAxis( aligneds[0]->getAxis(), KbRealignate );
aligneds.clear();
ltraceout(99);
}
}
ltraceout(99);
DebugSession::close();
}
void KatabaticEngine::updateNetTopology ( Net* net )
{
DebugSession::open( net );
ltrace(100) << "Katabatic::updateNetTopology( " << net << " )" << endl;
ltracein(99);
vector<AutoContact*> contacts;
forEach ( Component*, icomponent, net->getComponents() ) {
Contact* contact = dynamic_cast<Contact*>( *icomponent );
if (contact) {
AutoContact* autoContact = Session::lookup( contact );
if (autoContact and autoContact->isInvalidatedCache())
contacts.push_back( autoContact );
}
}
for ( size_t i=0 ; i<contacts.size() ; ++i )
contacts[i]->updateTopology();
ltraceout(99);
DebugSession::close();
}
void KatabaticEngine::_computeNetTerminals ( Net* net )
{
DebugSession::open( net, 88 );
ltrace(100) << "Katabatic::_computeNetTerminals( " << net << " )" << endl;
ltracein(99);
vector<AutoSegment*> segments;
forEach ( Segment*, segment, net->getSegments() ) {
AutoSegment* autoSegment = Session::lookup( *segment );
if (autoSegment == NULL) continue;
if (autoSegment->isInvalidated()) autoSegment->computeTerminal();
}
ltraceout(99);
DebugSession::close();
}
void KatabaticEngine::_saveNet ( Net* net )
{
DebugSession::open( net, 88 );
ltrace(90) << "Katabatic::_saveNet() " << net << endl;
ltracein(90);
#if 0
ltrace(90) << "Deleting zero-length segments." << endl;
vector<Segment*> nullSegments;
set<const Layer*> connectedLayers;
forEach ( Segment*, segment, net->getSegments() ) {
if (segment->getLength()) {
if (net->isExternal()) {
NetExternalComponents::setExternal( *segment );
}
continue;
}
if (Session::lookup(*segment) == NULL) {
ltrace(90) << "* Not associated to an AutoSegment: " << *segment << endl;
continue;
}
if (not isTopAndBottomConnected(*segment,connectedLayers)) {
nullSegments.push_back( *segment );
ltrace(90) << "* Null Length: " << *segment << endl;
}
}
setFlags( EngineDestroyBaseSegment );
for ( size_t i = 0 ; i < nullSegments.size() ; i++ ) {
Contact* source = dynamic_cast<Contact*>(nullSegments[i]->getSource());
Contact* target = dynamic_cast<Contact*>(nullSegments[i]->getTarget());
if ( (source == NULL) or (target == NULL) ) {
cerr << Error("Unconnected source/target on %s.",getString(nullSegments[i]).c_str()) << endl;
continue;
}
if (source->getAnchor()) {
if (target->getAnchor()) {
continue;
//cerr << Bug("Both source & target are anchored while deleting zero-length segment:\n"
// " %s.",getString(nullSegments[i]).c_str()) << endl;
} else
swap( source, target );
}
ltrace(90) << "Deleting: " << nullSegments[i] << endl;
if (isTopAndBottomConnected(nullSegments[i],connectedLayers)) {
ltrace(90) << "Deletion cancelled, no longer top or bottom connected." << endl;
continue;
}
ltrace(90) << "* Source: " << (void*)source << " " << source << endl;
ltrace(90) << "* Target: " << (void*)target << " " << target << endl;
const Layer* layer = DataBase::getDB()->getTechnology()
->getViaBetween( *connectedLayers.begin(), *connectedLayers.rbegin() );
ltrace(90) << *connectedLayers.begin() << " + " << *connectedLayers.rbegin() << endl;
ltrace(90) << "* Shrink layer: " << layer << endl;
if ( !layer ) {
cerr << Error("NULL contact layer while deleting %s."
,getString(nullSegments[i]).c_str()) << endl;
continue;
}
Session::lookup( nullSegments[i] )->destroy ();
vector<Hook*> slaveHooks;
Hook* masterHook = source->getBodyHook()->getPreviousMasterHook();
while ( masterHook->getNextHook() != source->getBodyHook() ) {
slaveHooks.push_back( masterHook->getNextHook() );
ltrace(90) << "* detach: "
<< (void*)masterHook->getNextHook()->getComponent()
<< " " << masterHook->getNextHook()->getComponent() << endl;
masterHook->getNextHook()->detach();
}
source->destroy();
masterHook = target->getBodyHook();
for ( size_t j=0 ; j < slaveHooks.size() ; j++ ) {
slaveHooks[j]->attach( masterHook );
}
ltrace(90) << (void*)target << " " << target << " setLayer: " << layer << endl;
target->setLayer( layer );
}
unsetFlags( EngineDestroyBaseSegment );
#endif
ltraceout(90);
DebugSession::close();
}
void KatabaticEngine::_check ( Net* net ) const
{
ltrace(200) << "Checking " << net << endl;
ltracein(200);
forEach ( Segment*, isegment, net->getComponents().getSubSet<Segment*>() ) {
AutoSegment* autoSegment = _lookup ( *isegment );
ltrace(200) << autoSegment << endl;
if ( autoSegment ) {
AutoContact* autoContact = autoSegment->getAutoSource();
ltrace(200) << autoContact << endl;
if ( autoContact ) autoContact->checkTopology ();
autoContact = autoSegment->getAutoTarget();
ltrace(200) << autoContact << endl;
if ( autoContact ) autoContact->checkTopology ();
}
}
ltraceout(200);
}
void KatabaticEngine::_print ( Net* net ) const
{
cerr << "Order: Components of " << net << endl;
vector<AutoSegment*> segments;
forEach ( Segment*, isegment, net->getComponents().getSubSet<Segment*>() ) {
AutoSegment* autoSegment = _lookup( *isegment );
if (autoSegment)
segments.push_back( autoSegment );
}
* ./katabatic: - New: In AutoSegment, adds a "_parent" attribute to keep track of the fragmentation processus. Currently used only for strap segments, points to the original segment in the appropriate direction (before the split). - New: In GCell & LayerAssign, new method of layer assignment. Move up the whole net trunk if only one of it's segment is inside an over-saturated GCell. AutoSegment are moved up only if there is at least 2 free tracks remaining on the upper level. - Change: In Session::_canonize(), uses the lowest segment Id as canonical. More reliable than geometricals criterions in the end. Assuming that the segments are being created in deterministic order, which *should* be the case consediring the way we are walking through the global routing. - Change: In AutoSegment, completly suppress the CompareCanonical(), replace it by the much simpler CompareId(). - Change: In GCell::rpDesaturate(), stops desaturation when bottom density is under 0.5, otherwise we are causing a severe imbalance in M2/M4 densities. All wires pushed up to M4... - Change: In ChipTools, for the Pad's RoutingPad, reslect the best component using the one in the lowest layer. To avoid problem when splitting AutoContact as we expect the base Contact to be on the lower layer. - Bug: In GCellConfiguration::_GCell_xG_xL1_xL3(), add H/V alignement constraints in fork case. This allow NE/SW contact to be splitted correctly later. - Bug: In AutoContact::split(), the connexity on the splitted contacts was not correctly restored, leading to canonization and parentage looping errors. This was concealed by the Kite Track::_check() bug (incomplete individual TrackSegment checking).
2010-12-30 12:41:19 -06:00
sort ( segments.begin(), segments.end(), AutoSegment::CompareId() );
Interval constraints;
for ( size_t i=0 ; i<segments.size() ; i++ ) {
segments[i]->getConstraints( constraints );
cerr << "Order: " << i
<< " " << segments[i]->isCanonical()
<< " " << setw(6) << DbU::getValueString(segments[i]->getSourceU())
<< " " << setw(6) << DbU::getValueString(segments[i]->getLength())
<< " " << segments[i]->isGlobal()
<< " " << segments[i]->isStrongTerminal()
<< " " << segments[i]->isHorizontal()
<< " " << setw(6) << DbU::getValueString(segments[i]->getAxis())
<< " " << segments[i]->isFixed()
<< " [" << DbU::getValueString(constraints.getVMin())
<< ":" << DbU::getValueString(constraints.getVMax())
<< "] " << segments[i]
<< endl;
}
}
void KatabaticEngine::_print () const
{
vector<Net*> nets;
forEach ( Net*, inet, getCell()->getNets() ) {
nets.push_back( *inet );
}
sort ( nets.begin(), nets.end(), NetCompareByName() );
}
string KatabaticEngine::_getTypeName () const
{
return "Katabatic";
}
string KatabaticEngine::_getString () const
{
ostringstream os;
os << "<" << "Katabatic " << _cell->getName () << " " << _configuration->getRoutingGauge()->getName() << ">";
return ( os.str() );
}
Record* KatabaticEngine::_getRecord () const
{
Record* record = ToolEngine::_getRecord ();
record->add( getSlot( "_flags" , _flags ) );
record->add( getSlot( "_state" , _state ) );
record->add( getSlot( "_configuration" , _configuration ) );
record->add( getSlot( "_gcellGrid" , _gcellGrid ) );
record->add( getSlot( "_chipTools" , _chipTools ) );
record->add( getSlot( "_routingNets" , &_routingNets ) );
record->add( getSlot( "_autoContactLut" , &_autoContactLut ) );
record->add( getSlot( "_autoSegmentLut" , &_autoSegmentLut ) );
return record;
}
} // End of Katabatic namespace.