// -*- C++ -*- // // This file is part of the Coriolis Software. // Copyright (c) UPMC 2008-2016, All Rights Reserved // // +-----------------------------------------------------------------+ // | C O R I O L I S | // | A n a b a t i c - Routing Toolbox | // | | // | Author : Jean-Paul CHAPUT | // | E-mail : Jean-Paul.Chaput@lip6.fr | // | =============================================================== | // | C++ Module : "./AutoHorizontal.cpp" | // +-----------------------------------------------------------------+ #include #include "hurricane/Bug.h" #include "hurricane/Error.h" #include "hurricane/DebugSession.h" #include "hurricane/RoutingPad.h" #include "crlcore/RoutingGauge.h" #include "anabatic/Configuration.h" #include "anabatic/AutoContactTerminal.h" #include "anabatic/AutoContactTurn.h" #include "anabatic/AutoHorizontal.h" #include "anabatic/AutoVertical.h" namespace Anabatic { using std::min; using std::max; using Hurricane::Error; using Hurricane::Bug; using Hurricane::DebugSession; using Hurricane::RoutingPad; // ------------------------------------------------------------------- // Class : "Anabatic::AutoHorizontal". Segment* AutoHorizontal::base () { return _horizontal; } Segment* AutoHorizontal::base () const { return _horizontal; } Horizontal* AutoHorizontal::getHorizontal () { return _horizontal; } DbU::Unit AutoHorizontal::getSourceU () const { return _horizontal->getSourceX(); } DbU::Unit AutoHorizontal::getTargetU () const { return _horizontal->getTargetX(); } DbU::Unit AutoHorizontal::getDuSource () const { return _horizontal->getDxSource(); } DbU::Unit AutoHorizontal::getDuTarget () const { return _horizontal->getDxTarget(); } Interval AutoHorizontal::getSpanU () const { return Interval(_horizontal->getSourceX(),_horizontal->getTargetX()); } void AutoHorizontal::setDuSource ( DbU::Unit du ) { _horizontal->setDxSource(du); } void AutoHorizontal::setDuTarget ( DbU::Unit du ) { _horizontal->setDxTarget(du); } string AutoHorizontal::_getTypeName () const { return "AutoHorizontal"; } AutoHorizontal::AutoHorizontal ( Horizontal* horizontal ) : AutoSegment(horizontal) , _horizontal(horizontal) { cdebug_log(145,0) << "CTOR AutoHorizontal " << this << endl; cdebug_log(145,0) << " over " << horizontal << endl; } void AutoHorizontal::_postCreate () { AutoSegment::_postCreate (); AutoContact* source = getAutoSource(); if (source->isTerminal()) source->setY( _horizontal->getY() ); AutoContact* target = getAutoTarget(); if (target->isTerminal()) target->setY( _horizontal->getY() ); _gcell = source->getGCell(); setOptimalMax( getGCell()->getYMax() ); resetNativeConstraints( getGCell()->getYMin(), getGCell()->getConstraintYMax() ); if (getGCell() != target->getGCell()) { setFlags( SegGlobal ); vector gcells; getGCells( gcells ); for ( GCell* gcell : gcells ) { if ( (gcell != getGCell()) and (gcell != target->getGCell()) ) gcell->addHSegment( this ); mergeNativeMin( gcell->getYMin() ); mergeNativeMax( gcell->getConstraintYMax() ); } } } void AutoHorizontal::_preDestroy () { cdebug_log(149,0) << "AutoHorizontal::_preDestroy() - " << endl; cdebug_log(149,0) << " " << _getString() << endl; cdebug_tabw(145,1); if (not Session::doDestroyTool()) { vector gcells; getGCells( gcells ); for ( GCell* gcell : gcells ) gcell->removeHSegment( this ); } AutoSegment::_preDestroy (); cdebug_tabw(145,-1); } AutoHorizontal::~AutoHorizontal () { if ( Session::doDestroyBaseSegment() and not Session::doDestroyTool() ) { cdebug_log(149,0) << "~AutoHorizontal() - " << endl; _horizontal->destroy (); } } Interval AutoHorizontal::getSourceConstraints ( unsigned int flags ) const { if (flags & Flags::NativeConstraints) { Box nativeBox ( getAutoSource()->getNativeConstraintBox() ); return Interval ( nativeBox.getYMin(), nativeBox.getYMax() ); } return Interval ( getAutoSource()->getCBYMin(), getAutoSource()->getCBYMax() ); } Interval AutoHorizontal::getTargetConstraints ( unsigned int flags ) const { if (flags & Flags::NativeConstraints) { Box nativeBox ( getAutoTarget()->getNativeConstraintBox() ); return Interval ( nativeBox.getYMin(), nativeBox.getYMax() ); } return Interval ( getAutoTarget()->getCBYMin(), getAutoTarget()->getCBYMax() ); } bool AutoHorizontal::getConstraints ( DbU::Unit& constraintMin, DbU::Unit& constraintMax ) const { constraintMin = getNativeMin(); constraintMax = getNativeMax(); cdebug_log(149,0) << "Native constraints: [" << DbU::getValueString(constraintMin) << ":" << DbU::getValueString(constraintMax) << "]" << endl; constraintMin = std::max ( constraintMin, getAutoSource()->getCBYMin() ); constraintMax = std::min ( constraintMax, getAutoSource()->getCBYMax() ); cdebug_log(149,0) << "Merge with source constraints: [" << DbU::getValueString(getAutoSource()->getCBYMin()) << ":" << DbU::getValueString(getAutoSource()->getCBYMax()) << "]" << endl; constraintMin = std::max ( constraintMin, getUserConstraints().getVMin() ); constraintMax = std::min ( constraintMax, getUserConstraints().getVMax() ); cdebug_log(149,0) << "Merge with user constraints: [" << DbU::getValueString(getUserConstraints().getVMin()) << ":" << DbU::getValueString(getUserConstraints().getVMax()) << "]" << endl; cdebug_log(149,0) << "Resulting constraints: " << " [" << DbU::getValueString(constraintMin) << ":" << DbU::getValueString(constraintMax) << "]" << endl; return true; } Flags AutoHorizontal::getDirection () const { return Flags::Horizontal; } size_t AutoHorizontal::getGCells ( vector& gcells ) const { vector().swap( gcells ); DbU::Unit yprobe = getNativeMin(); GCell* gcell = getAutoSource()->getGCell(); GCell* end = getAutoTarget()->getGCell(); if (gcell->getXMin() > end->getXMin()) std::swap( gcell, end ); gcells.push_back( gcell ); while ( gcell != end ) { gcell = gcell->getEast( yprobe ); if (not gcell) { cerr << Error( "AutoHorizontal::getGCells() : NULL GCell under %s\n" " begin:%s\n" " end: %s" , getString(this).c_str() , getString(getAutoSource()->getGCell()).c_str() , getString(getAutoTarget()->getGCell()).c_str() ) << endl; break; } gcells.push_back( gcell ); } return gcells.size(); } bool AutoHorizontal::_canSlacken () const { cdebug_tabw(149,1); Interval sourceSide = getAutoSource()->getGCell()->getSide( Flags::Vertical ); Interval targetSide = getAutoTarget()->getGCell()->getSide( Flags::Vertical ); Interval sourceConstraints = Interval(getAutoSource()->getCBYMin(),getAutoSource()->getCBYMax()); Interval targetConstraints = Interval(getAutoTarget()->getCBYMin(),getAutoTarget()->getCBYMax()); // Expand by a tiny amount for the "contains" to work for sure. sourceConstraints.inflate( 1 ); targetConstraints.inflate( 1 ); cdebug_log(149,0) << "source " << getAutoSource() << endl; cdebug_log(149,0) << "source constraints: " << sourceConstraints << " " << DbU::getValueString(sourceConstraints.getSize()) << endl; cdebug_log(149,0) << "target " << getAutoTarget() << endl; cdebug_log(149,0) << "target constraints: " << targetConstraints << " " << DbU::getValueString(targetConstraints.getSize()) << endl; if (not sourceConstraints.contains(sourceSide)) { cdebug_tabw(149,-1); return true; } if (not targetConstraints.contains(targetSide)) { cdebug_tabw(149,-1); return true; } cdebug_tabw(149,-1); return false; } bool AutoHorizontal::_slacken ( unsigned int flags ) { cdebug_log(149,0) << "AutoHorizontal::_slacken() " << this << endl; if (not isStrongTerminal()) return false; const Configuration* configuration = Session::getConfiguration(); const Layer* metal2 = configuration->getRoutingLayer( 1 ); bool success = false; bool isMetal2Source = false; bool isMetal2Target = false; DbU::Unit height = 0; AutoContact* source = getAutoSource(); AutoContact* target = getAutoTarget(); if (source->isTerminal()) { height = (static_cast(source->getAnchor()))->getBoundingBox().getHeight(); isMetal2Source = (source->getLayer() == metal2); } if (target->isTerminal()) { height = std::min( height, (static_cast(target->getAnchor()))->getBoundingBox().getHeight() ); isMetal2Target = (target->getLayer() == metal2); } if (height >= 4*getPitch()) { if (not (_flags & (SegGlobal|SegWeakGlobal)) and (getLength() < 5*getPitch())) return false; } cdebug_tabw(149,1); cdebug_log(149,0) << "_flags:" << (_flags & (SegGlobal|SegWeakGlobal)) << endl; cdebug_log(149,0) << "test:" << (getLength() < 5*getPitch()) << endl; cdebug_log(149,0) << "length:" << DbU::getValueString(getLength()) << endl; int lowSlack = (flags & Flags::HalfSlacken) ? 3 : 10; bool sourceSlackened = false; bool targetSlackened = false; bool halfSlackened = false; DbU::Unit targetPosition = getTargetPosition(); AutoSegment* parallel = this; if (source->isTerminal()) { Interval perpandConstraints = getAutoTarget()->getUConstraints(Flags::Horizontal); Interval constraints = source->getUConstraints (Flags::Vertical|Flags::NoGCellShrink); Interval nativeConstraints = source->getNativeUConstraints(Flags::Vertical|Flags::NoGCellShrink); int slack = constraints.getSize() / getPitch(); int nativeSlack = nativeConstraints.getSize() / getPitch(); cdebug_log(149,0) << "Source constraint: " << constraints << " slack:" << slack << " native slack:" << nativeSlack << endl; cdebug_log(149,0) << "Perpand constraints on target: " << perpandConstraints << endl; // Ugly: GCell's track number is hardwired. if ((nativeSlack < lowSlack) or (nativeSlack - slack < 3)) { cdebug_log(149,0) << "Slackening from Source: " << source << endl; _makeDogleg( source->getGCell(), Flags::NoFlags ); sourceSlackened = true; } else if (slack < 10) { halfSlackened = true; } const vector& doglegs = Session::getDoglegs(); if (sourceSlackened and (doglegs.size() >= 2)) { cdebug_log(149,0) << "AutoHorizontal::_slacken(): Source @" << DbU::getValueString(getSourcePosition()) << endl; doglegs[doglegs.size()-2]->setAxis( getSourcePosition() ); success = true; if (isMetal2Source) { cdebug_log(149,0) << "Fixing on source terminal contact." << doglegs[doglegs.size()-2]->getAutoSource() << endl; //doglegs[doglegs.size()-2]->getAutoSource()->setFlags( CntFixed ); doglegs[doglegs.size()-2]->getAutoSource()->setConstraintBox( source->getConstraintBox() ); doglegs[doglegs.size()-2]->getAutoSource()->setFlags( CntUserNativeConstraints ); } parallel = doglegs[ doglegs.size()-1 ]; } } if (parallel) target = parallel->getAutoTarget(); if (target->isTerminal()) { Interval constraints = target->getUConstraints (Flags::Vertical|Flags::NoGCellShrink); Interval nativeConstraints = target->getNativeUConstraints(Flags::Vertical|Flags::NoGCellShrink); int slack = constraints.getSize() / getPitch(); int nativeSlack = nativeConstraints.getSize() / getPitch(); // Ugly: GCell's track number is hardwired. cdebug_log(149,0) << "Target constraint: " << constraints << " slack:" << slack << " native slack:" << nativeSlack << endl; if ((nativeSlack < lowSlack) or (nativeSlack - slack < 3)) { cdebug_log(149,0) << "Slackening from Target: " << target << endl; parallel->_makeDogleg( target->getGCell(), Flags::NoFlags ); targetSlackened = true; } else if (slack < 10) { halfSlackened = true; } const vector& doglegs = Session::getDoglegs(); if (targetSlackened and (doglegs.size() >= 2)) { cdebug_log(149,0) << "AutoHorizontal::_slacken(): Target @" << DbU::getValueString(targetPosition) << endl; doglegs[doglegs.size()-2]->setAxis( targetPosition ); success = true; if (isMetal2Target) { cdebug_log(149,0) << "Fixing on target terminal contact: " << doglegs[doglegs.size()-2]->getAutoTarget() << endl; //doglegs[doglegs.size()-2]->getAutoTarget()->setFlags( CntFixed ); doglegs[doglegs.size()-2]->getAutoTarget()->setConstraintBox( target->getConstraintBox() ); doglegs[doglegs.size()-2]->getAutoTarget()->setFlags( CntUserNativeConstraints ); } } } if (sourceSlackened and targetSlackened) { setFlags ( SegSlackened ); unsetFlags( SegHalfSlackened ); } else { if (sourceSlackened or targetSlackened) { if (halfSlackened) { setFlags( SegHalfSlackened ); } else { setFlags ( SegSlackened ); unsetFlags( SegHalfSlackened ); } } } cdebug_tabw(149,-1); return success; } void AutoHorizontal::_setAxis ( DbU::Unit axis ) { setFlags( SegAxisSet ); if ((axis != getAxis()) and isFixed()) { cerr << Error( "AutoHorizontal::setAxis(): Cannot move fixed segment to %s.\n" " (on: %s)" , DbU::getValueString(axis).c_str() , _getString().c_str() ) << endl; } if (_horizontal->getY() == axis) return; cdebug_log(145,0) << "_setAxis() @Y " << DbU::toLambda(axis) << " " << this << endl; _horizontal->setY( axis ); invalidate(); AutoContact* anchor = getAutoSource(); anchor->invalidate(); if (anchor->isTerminal()) anchor->setY( axis ); anchor = getAutoTarget(); anchor->invalidate(); if (anchor->isTerminal()) anchor->setY( axis ); } void AutoHorizontal::updateOrient () { if (_horizontal->getTargetX() < _horizontal->getSourceX()) { cdebug_log(145,0) << "updateOrient() " << this << " (before S/T swap)" << endl; _horizontal->invert(); unsigned int spinFlags = _flags & SegDepthSpin; unsetFlags( SegDepthSpin ); if (spinFlags & SegSourceTop ) setFlags( SegTargetTop ); if (spinFlags & SegSourceBottom) setFlags( SegTargetBottom ); if (spinFlags & SegTargetTop ) setFlags( SegSourceTop ); if (spinFlags & SegTargetBottom) setFlags( SegSourceBottom ); unsigned int invalidatedFlags = _flags & (SegInvalidatedSource|SegInvalidatedTarget); unsetFlags( SegInvalidatedSource|SegInvalidatedTarget ); if (invalidatedFlags & SegInvalidatedSource) setFlags( SegInvalidatedTarget ); if (invalidatedFlags & SegInvalidatedTarget) setFlags( SegInvalidatedSource ); unsigned int terminalFlags = _flags & SegStrongTerminal; unsetFlags( SegStrongTerminal ); if (terminalFlags & SegSourceTerminal) setFlags( SegTargetTerminal ); if (terminalFlags & SegTargetTerminal) setFlags( SegSourceTerminal ); } } void AutoHorizontal::updatePositions () { _sourcePosition = _horizontal->getSourceX() - Session::getExtensionCap(getLayer()); _targetPosition = _horizontal->getTargetX() + Session::getExtensionCap(getLayer()); } void AutoHorizontal::updateNativeConstraints () { vector gcells; getGCells( gcells ); resetNativeConstraints( gcells[0]->getYMin(), gcells[0]->getConstraintYMax() ); for ( GCell* gcell : gcells ) { mergeNativeMin( gcell->getYMin() ); mergeNativeMax( gcell->getConstraintYMax() ); } } bool AutoHorizontal::checkPositions () const { bool coherency = true; DbU::Unit sourcePosition = _horizontal->getSourceX() - Session::getExtensionCap(getLayer()); DbU::Unit targetPosition = _horizontal->getTargetX() + Session::getExtensionCap(getLayer()); if ( _sourcePosition != sourcePosition ) { cerr << Error ( "%s\n Source position incoherency: " "shadow: %s, real: %s." , _getString().c_str() , DbU::getValueString(_sourcePosition).c_str() , DbU::getValueString( sourcePosition).c_str() ) << endl; coherency = false; } if ( _targetPosition != targetPosition ) { cerr << Error ( "%s\n Target position incoherency: " "shadow: %s, real: %s." , _getString().c_str() , DbU::getValueString(_targetPosition).c_str() , DbU::getValueString( targetPosition).c_str() ) << endl; coherency = false; } return coherency; } bool AutoHorizontal::checkConstraints () const { Interval sourceConstraints = Interval(getAutoSource()->getCBYMin(),getAutoSource()->getCBYMax()); Interval targetConstraints = Interval(getAutoTarget()->getCBYMin(),getAutoTarget()->getCBYMax()); if (not sourceConstraints.intersect(targetConstraints)) { cerr << Error ( "%s\n Constraints incoherency:\n" " S:%s %s\n" " T:%s %s" , _getString().c_str() , getString(sourceConstraints).c_str() , getString(getAutoSource()).c_str() , getString(targetConstraints).c_str() , getString(getAutoTarget()).c_str() ) << endl; return false; } return true; } bool AutoHorizontal::canMoveULeft ( float reserve ) const { #if THIS_IS_DISABLED //cerr << "canMoveULeft() " << this << endl; if (not isGlobal()) return false; if (not getAutoSource()->isTurn() or not getAutoTarget()->isTurn()) return false; if (not getAutoSource()->getGCell()->getDown()) return false; AutoContact* autoSource = getAutoSource(); AutoContact* autoTarget = getAutoTarget(); AutoSegment* perpandiculars[2] = { autoSource->getSegment(0), autoTarget->getSegment(0) }; if ( ( (not perpandiculars[0]->isGlobal()) or (perpandiculars[0]->getAutoSource() == autoSource) ) and ( (not perpandiculars[1]->isGlobal()) or (perpandiculars[1]->getAutoSource() == autoTarget) ) ) return false; GCell* begin = autoSource->getGCell(); GCell* end = autoTarget->getGCell(); unsigned int depth = Session::getRoutingGauge()->getLayerDepth( getLayer() ); float currMaxDensity = 0.0; float leftMaxDensity = 0.0; //cerr << "| begin:" << begin << endl; //cerr << "| end: " << end << endl; for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() ) { //cerr << "| gcell:" << gcell << endl; if (currMaxDensity < gcell->getWDensity(depth)) currMaxDensity = gcell->getWDensity( depth ); } begin = begin->getDown(); end = end ->getDown(); for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() ) { if (leftMaxDensity < gcell->getWDensity(depth)) leftMaxDensity = gcell->getWDensity( depth ); } return (leftMaxDensity + reserve < currMaxDensity); #endif return false; } bool AutoHorizontal::canMoveURight ( float reserve ) const { #if THIS_IS_DISABLED //cerr << "canMoveURight() " << this << endl; if (not isGlobal()) return false; if (not getAutoSource()->isTurn() or not getAutoTarget()->isTurn()) return false; if (not getAutoSource()->getGCell()->getUp()) return false; AutoContact* autoSource = getAutoSource(); AutoContact* autoTarget = getAutoTarget(); AutoSegment* perpandiculars[2] = { autoSource->getSegment(0), autoTarget->getSegment(0) }; if ( ( (not perpandiculars[0]->isGlobal()) or (perpandiculars[0]->getAutoTarget() == autoSource) ) and ( (not perpandiculars[1]->isGlobal()) or (perpandiculars[1]->getAutoTarget() == autoTarget) ) ) return false; GCell* begin = autoSource->getGCell(); GCell* end = autoTarget->getGCell(); unsigned int depth = Session::getRoutingGauge()->getLayerDepth( getLayer() ); float currMaxDensity = 0.0; float leftMaxDensity = 0.0; //cerr << "| begin:" << begin << endl; //cerr << "| end: " << end << endl; for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() ) { //cerr << "| gcell: " << gcell << endl; if (currMaxDensity < gcell->getWDensity(depth)) currMaxDensity = gcell->getWDensity( depth ); } begin = begin->getUp(); end = end ->getUp(); for ( GCell* gcell=begin ; gcell and gcell!=end ; gcell=gcell->getRight() ) { if (leftMaxDensity < gcell->getWDensity(depth)) leftMaxDensity = gcell->getWDensity( depth ); } return (leftMaxDensity + reserve < currMaxDensity); #endif return false; } bool AutoHorizontal::moveULeft () { #if THIS_IS_DISABLED if (not getAutoSource()->isTurn() or not getAutoTarget()->isTurn()) return false; if (not getAutoSource()->getGCell()->getDown()) return false; AutoContact* autoSource = getAutoSource(); AutoContact* autoTarget = getAutoTarget(); GCell* begin = autoSource->getGCell(); GCell* end = autoTarget->getGCell(); AutoSegment* perpandicular = autoSource->getSegment(2); if (perpandicular->isLocal()) { perpandicular->setFlags( Anabatic::SegGlobal ); } else { if (perpandicular->getAutoSource() == autoSource) { begin->addVSegment( perpandicular ); } else { if (begin->getDown() == perpandicular->getAutoSource()->getGCell()) { perpandicular->unsetFlags( Anabatic::SegGlobal ); } else begin->getDown()->removeVSegment( perpandicular ); } } perpandicular = autoTarget->getSegment(2); if (perpandicular->isLocal()) { perpandicular->setFlags( Anabatic::SegGlobal ); } else { if (perpandicular->getAutoSource() == autoTarget) { end->addVSegment( perpandicular ); } else { if (end->getDown() == perpandicular->getAutoSource()->getGCell()) { perpandicular->unsetFlags( Anabatic::SegGlobal ); } else end->getDown()->removeVSegment( perpandicular ); } } if (begin != end) { for ( GCell* gcell=begin->getRight() ; gcell and gcell!=end ; gcell=gcell->getRight() ) gcell->removeHSegment( this ); } begin = begin->getDown(); end = end ->getDown(); autoSource->setGCell( begin ); autoTarget->setGCell( end ); if (begin != end) { for ( GCell* gcell=begin->getRight() ; gcell and gcell!=end ; gcell=gcell->getRight() ) gcell->addHSegment( this ); } DbU::Unit y = begin->getSide(Flags::Vertical).getVMax(); setAxis( y ); return true; #endif return false; } bool AutoHorizontal::moveURight () { #if THIS_IS_DISABLED //cerr << "moveURight() " << this << endl; if (not getAutoSource()->isTurn() or not getAutoTarget()->isTurn()) return false; if (not getAutoSource()->getGCell()->getUp()) return false; AutoContact* autoSource = getAutoSource(); AutoContact* autoTarget = getAutoTarget(); GCell* begin = autoSource->getGCell(); GCell* end = autoTarget->getGCell(); AutoSegment* perpandicular = autoSource->getSegment(2); if (perpandicular->isLocal()) { perpandicular->setFlags( Anabatic::SegGlobal ); } else { if (perpandicular->getAutoTarget() == autoSource) { begin->addVSegment( perpandicular ); } else { if (begin->getUp() == perpandicular->getAutoTarget()->getGCell()) { perpandicular->unsetFlags( Anabatic::SegGlobal ); } else begin->getUp()->removeVSegment( perpandicular ); } } perpandicular = autoTarget->getSegment(2); if (perpandicular->isLocal()) { perpandicular->setFlags( Anabatic::SegGlobal ); } else { if (perpandicular->getAutoTarget() == autoTarget) { end->addVSegment( perpandicular ); } else { if (end->getUp() == perpandicular->getAutoTarget()->getGCell()) { perpandicular->unsetFlags( Anabatic::SegGlobal ); } else end->getUp()->removeVSegment( perpandicular ); } } //cerr << "| begin:" << begin << endl; //cerr << "| end: " << end << endl; //cerr << "* remove" << endl; if (begin != end) { for ( GCell* gcell=begin->getRight() ; gcell and gcell!=end ; gcell=gcell->getRight() ) { //cerr << "| gcell: " << end << endl; gcell->removeHSegment( this ); } } begin = begin->getUp(); end = end ->getUp(); autoSource->setGCell( begin ); autoTarget->setGCell( end ); //cerr << "* add" << endl; if (begin != end) { for ( GCell* gcell=begin->getRight() ; gcell and gcell!=end ; gcell=gcell->getRight() ) { //cerr << "| gcell: " << end << endl; gcell->addHSegment( this ); } } DbU::Unit y = begin->getSide( Flags::Vertical ).getVMin(); setAxis( y ); return true; #endif return false; } unsigned int AutoHorizontal::_makeDogleg ( GCell* doglegGCell, unsigned int flags ) { DebugSession::open( getNet(), 140, 150 ); cdebug_log(149,0) << "AutoHorizontal::_makeDogleg(GCell*) in " << doglegGCell << endl; cdebug_tabw(149,1); //Session::doglegReset(); AutoContact* autoTarget = getAutoTarget(); AutoContact* autoSource = getAutoSource(); GCell* begin = autoSource->getGCell(); GCell* end = autoTarget->getGCell(); DbU::Unit doglegAxis = (doglegGCell->getXMax() + doglegGCell->getXMin()) / 2; if (isLocal()) doglegAxis = (getSourceX() + getTargetX()) / 2; cdebug_log(149,0) << "Detaching from Target AutoContact " << autoTarget << "." << endl; if (doglegGCell == begin) unsetFlags( SegGlobal ); if (doglegGCell != end) { GCell* gcell = doglegGCell; do { if (gcell != begin) { cdebug_log(149,0) << "| Remove from:" << gcell << endl; gcell->removeHSegment( this ); } gcell = gcell->getEast( getNativeMin() ); } while ( gcell and (gcell != end) ); } size_t depth = Session::getRoutingGauge()->getLayerDepth( _horizontal->getLayer() ); bool upLayer = (depth+1 <= Session::getConfiguration()->getAllowedDepth()); Layer* contactLayer = Session::getRoutingGauge()->getContactLayer( depth + ((upLayer)?0:-1) ); const Layer* doglegLayer = Session::getRoutingGauge()->getRoutingLayer( depth + ((upLayer)?1:-1) ); Session::dogleg( this ); targetDetach(); invalidate( Flags::Topology ); autoTarget->invalidate( Flags::Topology ); AutoContact* dlContact1 = AutoContactTurn::create( doglegGCell, _horizontal->getNet(), contactLayer ); AutoContact* dlContact2 = AutoContactTurn::create( doglegGCell, _horizontal->getNet(), contactLayer ); AutoSegment* segment1 = AutoSegment::create( dlContact1 , dlContact2, Flags::Vertical ); segment1->setLayer( doglegLayer ); segment1->_setAxis( doglegAxis ); segment1->setFlags( SegDogleg|SegSlackened|SegCanonical|SegNotAligned ); cdebug_log(149,0) << "New " << dlContact1 << endl; cdebug_log(149,0) << "New " << dlContact2 << endl; Session::dogleg( segment1 ); targetAttach( dlContact1 ); AutoSegment* segment2 = AutoSegment::create( dlContact2 , autoTarget, Flags::Horizontal ); autoTarget->cacheAttach( segment2 ); segment2->setLayer( getLayer() ); segment2->_setAxis( getY() ); segment2->setFlags( (isSlackened()?SegSlackened:0) ); Session::dogleg( segment2 ); if (autoSource->isTerminal()) { segment1->setFlags( SegWeakTerminal1 ); segment2->setFlags( SegWeakTerminal1 ); autoTarget->unsetFlags( CntWeakTerminal ); dlContact1->setFlags ( CntWeakTerminal ); if (autoTarget->getGCell() == doglegGCell) dlContact1->migrateConstraintBox( autoTarget ); } else if (autoTarget->isTerminal()) { unsetFlags( SegTargetTerminal ); setFlags( SegWeakTerminal1 ); segment1->setFlags( SegWeakTerminal1 ); segment2->setFlags( SegTargetTerminal ); autoSource->unsetFlags( CntWeakTerminal ); dlContact2->setFlags ( CntWeakTerminal ); if (autoSource->getGCell() == doglegGCell) dlContact2->migrateConstraintBox( autoSource ); } else if (isWeakTerminal()) { segment1->setFlags( SegWeakTerminal1 ); segment2->setFlags( SegWeakTerminal1 ); } cdebug_log(149,0) << "Session::dogleg[x+1] perpand: " << segment1 << endl; cdebug_log(149,0) << "Session::dogleg[x+2] new paral: " << segment2 << endl; cdebug_log(149,0) << "Session::dogleg[x+0] original: " << this << endl; dlContact1->updateCache(); dlContact2->updateCache(); //autoTarget->updateCache(); segment2->canonize( flags ); if (not isCanonical()) canonize( flags ); updateNativeConstraints(); segment2->updateNativeConstraints(); cdebug_tabw(149,-1); DebugSession::close(); return (upLayer) ? Flags::AboveLayer : Flags::BelowLayer; } string AutoHorizontal::_getString () const { string s = AutoSegment::_getString(); return s; } Record* AutoHorizontal::_getRecord () const { Record* record = AutoSegment::_getRecord (); record->add ( getSlot ( "_horizontal", _horizontal ) ); return record; } } // End of Anabatic namespace.