Merge branch 'devel_anabatic' of ssh://bop.soc.lip6.fr/users/largo2/git/coriolis into devel_anabatic

Conflicts:
	anabatic/src/Dijkstra.cpp
This commit is contained in:
EricLaoGitHub 2017-06-21 18:04:43 +02:00
commit 37d6a02b0e
31 changed files with 1029 additions and 541 deletions

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@ -432,8 +432,8 @@ namespace Anabatic {
void AutoHorizontal::updatePositions () void AutoHorizontal::updatePositions ()
{ {
_sourcePosition = _horizontal->getSourceX() - Session::getExtensionCap(getLayer()); _sourcePosition = _horizontal->getSourceX() - getExtensionCap();
_targetPosition = _horizontal->getTargetX() + Session::getExtensionCap(getLayer()); _targetPosition = _horizontal->getTargetX() + getExtensionCap();
} }
@ -453,8 +453,8 @@ namespace Anabatic {
bool AutoHorizontal::checkPositions () const bool AutoHorizontal::checkPositions () const
{ {
bool coherency = true; bool coherency = true;
DbU::Unit sourcePosition = _horizontal->getSourceX() - Session::getExtensionCap(getLayer()); DbU::Unit sourcePosition = _horizontal->getSourceX() - getExtensionCap();
DbU::Unit targetPosition = _horizontal->getTargetX() + Session::getExtensionCap(getLayer()); DbU::Unit targetPosition = _horizontal->getTargetX() + getExtensionCap();
if ( _sourcePosition != sourcePosition ) { if ( _sourcePosition != sourcePosition ) {
cerr << Error ( "%s\n Source position incoherency: " cerr << Error ( "%s\n Source position incoherency: "

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@ -608,6 +608,13 @@ namespace Anabatic {
} }
DbU::Unit AutoSegment::getExtensionCap () const
{
DbU::Unit mWidth = std::max( Session::getWireWidth(getLayer()), Session::getViaWidth(getLayer()) );
if (getWidth() <= mWidth) return Session::getExtensionCap( getLayer() );
return getWidth() / 2;
}
DbU::Unit AutoSegment::getSlack () const DbU::Unit AutoSegment::getSlack () const
{ {
DbU::Unit constraintMin; DbU::Unit constraintMin;

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@ -371,8 +371,8 @@ namespace Anabatic {
void AutoVertical::updatePositions () void AutoVertical::updatePositions ()
{ {
_sourcePosition = _vertical->getSourceY() - Session::getExtensionCap(getLayer()); _sourcePosition = _vertical->getSourceY() - getExtensionCap();
_targetPosition = _vertical->getTargetY() + Session::getExtensionCap(getLayer()); _targetPosition = _vertical->getTargetY() + getExtensionCap();
} }
@ -392,8 +392,8 @@ namespace Anabatic {
bool AutoVertical::checkPositions () const bool AutoVertical::checkPositions () const
{ {
bool coherency = true; bool coherency = true;
DbU::Unit sourcePosition = _vertical->getSourceY() - Session::getExtensionCap(getLayer()); DbU::Unit sourcePosition = _vertical->getSourceY() - getExtensionCap();
DbU::Unit targetPosition = _vertical->getTargetY() + Session::getExtensionCap(getLayer()); DbU::Unit targetPosition = _vertical->getTargetY() + getExtensionCap();
if ( _sourcePosition != sourcePosition ) { if ( _sourcePosition != sourcePosition ) {
cerr << Error ( "%s\n Source position incoherency: " cerr << Error ( "%s\n Source position incoherency: "

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@ -1961,11 +1961,12 @@ namespace Anabatic {
DbU::Unit width = Session::getPitch(Hurricane::DataBase::getDB()->getTechnology()->getLayer("METAL2")); DbU::Unit width = Session::getPitch(Hurricane::DataBase::getDB()->getTechnology()->getLayer("METAL2"));
if (state) width *= state->getWPitch(); if (state) width *= state->getWPitch();
segment = Horizontal::create( sourceContact segment = Horizontal::create( sourceContact
, targetContact , targetContact
, _anabatic->getConfiguration()->getGHorizontalLayer() , _anabatic->getConfiguration()->getGHorizontalLayer()
, constraint.getCenter() , constraint.getCenter()
, width//DbU::fromLambda(2.0) , width
); );
for ( Edge* through : aligneds ) through->add( segment ); for ( Edge* through : aligneds ) through->add( segment );
if (state){ if (state){
@ -1981,7 +1982,7 @@ namespace Anabatic {
, targetContact , targetContact
, _anabatic->getConfiguration()->getGVerticalLayer() , _anabatic->getConfiguration()->getGVerticalLayer()
, constraint.getCenter() , constraint.getCenter()
, width//DbU::fromLambda(2.0) , width
); );
for ( Edge* through : aligneds ) through->add( segment ); for ( Edge* through : aligneds ) through->add( segment );
if (state){ if (state){

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@ -231,6 +231,7 @@ namespace Anabatic {
inline unsigned int getDepth () const; inline unsigned int getDepth () const;
inline DbU::Unit getPitch () const; inline DbU::Unit getPitch () const;
DbU::Unit getPPitch () const; DbU::Unit getPPitch () const;
DbU::Unit getExtensionCap () const;
inline DbU::Unit getAxis () const; inline DbU::Unit getAxis () const;
virtual DbU::Unit getSourceU () const = 0; virtual DbU::Unit getSourceU () const = 0;
virtual DbU::Unit getTargetU () const = 0; virtual DbU::Unit getTargetU () const = 0;

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@ -41,8 +41,8 @@ def kwParseMain ( **kw ):
editor = kw['editor'] editor = kw['editor']
if cell == None: cell = editor.getCell() if cell == None: cell = editor.getCell()
if cell == None: #if cell == None:
raise ErrorMessage( 3, 'Chip: No cell loaded yet.' ) # raise ErrorMessage( 3, 'Chip: No cell loaded yet.' )
return cell, editor return cell, editor

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@ -171,6 +171,7 @@
SharedPath.cpp SharedPath.cpp
Path.cpp Path.cpp
Occurrence.cpp Occurrence.cpp
Occurrences.cpp
QuadTree.cpp QuadTree.cpp
Slice.cpp Slice.cpp
ExtensionSlice.cpp ExtensionSlice.cpp

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@ -813,9 +813,14 @@ DeepNet* Cell::getDeepNet ( Path path, const Net* leafNet ) const
return NULL; return NULL;
} }
void Cell::flattenNets (uint64_t flags )
// *************************************
{
flattenNets( NULL, flags );
}
void Cell::flattenNets(uint64_t flags) void Cell::flattenNets ( const Instance* instance, uint64_t flags )
// *************************************** // ****************************************************************
{ {
cdebug_log(18,0) << "Cell::flattenNets() flags:0x" << hex << flags << endl; cdebug_log(18,0) << "Cell::flattenNets() flags:0x" << hex << flags << endl;
@ -828,7 +833,7 @@ void Cell::flattenNets(uint64_t flags)
vector<HyperNet> hyperNets; vector<HyperNet> hyperNets;
vector<HyperNet> topHyperNets; vector<HyperNet> topHyperNets;
for ( Occurrence occurrence : getHyperNetRootNetOccurrences() ) { for ( Occurrence occurrence : getHyperNetRootNetOccurrences().getSubSet(NotFilter<Occurrence>(Occurrence_Contains(instance))) ) {
Net* net = static_cast<Net*>(occurrence.getEntity()); Net* net = static_cast<Net*>(occurrence.getEntity());
if (net->isClock() and (flags & Flags::NoClockFlatten)) continue; if (net->isClock() and (flags & Flags::NoClockFlatten)) continue;

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@ -0,0 +1,63 @@
// -*- C++ -*-
//
// Copyright (c) BULL S.A. 2017-2017, All Rights Reserved
//
// This file is part of Hurricane.
//
// Hurricane is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// Hurricane is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of MERCHAN-
// TABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the Lesser GNU
// General Public License for more details.
//
// You should have received a copy of the Lesser GNU General Public
// License along with Hurricane. If not, see
// <http://www.gnu.org/licenses/>.
//
// +-----------------------------------------------------------------+
// | H U R R I C A N E |
// | V L S I B a c k e n d D a t a - B a s e |
// | |
// | Author : Jean-Paul Chaput |
// | E-mail : Jean-Paul.Chaput@lip6.fr |
// | =============================================================== |
// | C++ Module : "./Occurrences.cpp" |
// +-----------------------------------------------------------------+
#include "hurricane/Occurrences.h"
#include "hurricane/Instance.h"
namespace Hurricane {
// -------------------------------------------------------------------
// Class : "Occurrence_Contains".
OccurrenceFilter* Occurrence_Contains::getClone () const
{ return new Occurrence_Contains(_instance); }
bool Occurrence_Contains::accept ( Occurrence occurrence ) const
{
if (not _instance) return false;
if (dynamic_cast<Instance*>(occurrence.getEntity()) == _instance) return true;
for ( Instance* instance : occurrence.getPath().getInstances() ) {
if (instance == _instance) return true;
}
return false;
}
string Occurrence_Contains::_getString () const
{ return "<Occurrence_Contains " + getString(_instance) + " >"; }
} // Hurricane namespace.

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@ -507,6 +507,7 @@ class Cell : public Entity {
public: void setPad(bool isPad) {_flags.set(Flags::Pad,isPad);}; public: void setPad(bool isPad) {_flags.set(Flags::Pad,isPad);};
public: void setFeed(bool isFeed) {_flags.set(Flags::Feed,isFeed);}; public: void setFeed(bool isFeed) {_flags.set(Flags::Feed,isFeed);};
public: void flattenNets(uint64_t flags=Flags::BuildRings); public: void flattenNets(uint64_t flags=Flags::BuildRings);
public: void flattenNets(const Instance* instance, uint64_t flags=Flags::BuildRings);
public: void createRoutingPadRings(uint64_t flags=Flags::BuildRings); public: void createRoutingPadRings(uint64_t flags=Flags::BuildRings);
public: void setFlags(uint64_t flags) { _flags |= flags; } public: void setFlags(uint64_t flags) { _flags |= flags; }
public: void resetFlags(uint64_t flags) { _flags &= ~flags; } public: void resetFlags(uint64_t flags) { _flags &= ~flags; }

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@ -96,6 +96,9 @@ namespace Hurricane {
void DebugSession::open ( int minLevel, int maxLevel ) void DebugSession::open ( int minLevel, int maxLevel )
{ {
if (cdebug.getMinLevel() < minLevel) minLevel = cdebug.getMinLevel();
if (cdebug.getMaxLevel() > maxLevel) maxLevel = cdebug.getMaxLevel();
_singleton->_levels.push( make_pair( cdebug.setMinLevel(minLevel) _singleton->_levels.push( make_pair( cdebug.setMinLevel(minLevel)
, cdebug.setMaxLevel(maxLevel) ) ); , cdebug.setMaxLevel(maxLevel) ) );
} }
@ -103,6 +106,9 @@ namespace Hurricane {
void DebugSession::open ( const void* symbol, int minLevel, int maxLevel ) void DebugSession::open ( const void* symbol, int minLevel, int maxLevel )
{ {
if (cdebug.getMinLevel() < minLevel) minLevel = cdebug.getMinLevel();
if (cdebug.getMaxLevel() > maxLevel) maxLevel = cdebug.getMaxLevel();
if ( _singleton->_isTraced(symbol) ) if ( _singleton->_isTraced(symbol) )
_singleton->_levels.push( make_pair( cdebug.setMinLevel(minLevel) _singleton->_levels.push( make_pair( cdebug.setMinLevel(minLevel)
, cdebug.setMaxLevel(maxLevel) ) ); , cdebug.setMaxLevel(maxLevel) ) );

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@ -1,21 +1,33 @@
// **************************************************************************************************** // -*- C++ -*-
// File: ./hurricane/Occurrences.h //
// Authors: R. Escassut // Copyright (c) BULL S.A. 2000-2017, All Rights Reserved
// Copyright (c) BULL S.A. 2000-2016, All Rights Reserved
// //
// This file is part of Hurricane. // This file is part of Hurricane.
// //
// Hurricane is free software: you can redistribute it and/or modify it under the terms of the GNU // Hurricane is free software: you can redistribute it and/or modify
// Lesser General Public License as published by the Free Software Foundation, either version 3 of the // it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version. // License, or (at your option) any later version.
// //
// Hurricane is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even // Hurricane is distributed in the hope that it will be useful, but
// the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the Lesser GNU // WITHOUT ANY WARRANTY; without even the implied warranty of MERCHAN-
// TABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the Lesser GNU
// General Public License for more details. // General Public License for more details.
// //
// You should have received a copy of the Lesser GNU General Public License along with Hurricane. If // You should have received a copy of the Lesser GNU General Public
// not, see <http://www.gnu.org/licenses/>. // License along with Hurricane. If not, see
// **************************************************************************************************** // <http://www.gnu.org/licenses/>.
//
// +-----------------------------------------------------------------+
// | H U R R I C A N E |
// | V L S I B a c k e n d D a t a - B a s e |
// | |
// | Author : Rémy Escassut |
// | E-mail : Jean-Paul.Chaput@lip6.fr |
// | =============================================================== |
// | C++ Module : "./Occurrences.cpp" |
// +-----------------------------------------------------------------+
#ifndef HURRICANE_OCCURENCES #ifndef HURRICANE_OCCURENCES
#define HURRICANE_OCCURENCES #define HURRICANE_OCCURENCES
@ -25,52 +37,47 @@
namespace Hurricane { namespace Hurricane {
class Instance;
typedef GenericCollection<Occurrence> Occurrences;
typedef GenericLocator<Occurrence> OccurrenceLocator;
typedef GenericFilter<Occurrence> OccurrenceFilter;
// **************************************************************************************************** // -------------------------------------------------------------------
// Occurrences declaration // Class : "Occurrence_Contains".
// ****************************************************************************************************
typedef GenericCollection<Occurrence> Occurrences; class Occurrence_Contains : public OccurrenceFilter {
public:
inline Occurrence_Contains ( const Instance* );
inline Occurrence_Contains ( const Occurrence_Contains& );
virtual OccurrenceFilter* getClone () const;
virtual bool accept ( Occurrence ) const;
virtual string _getString () const;
protected:
const Instance* _instance;
};
Occurrence_Contains::Occurrence_Contains ( const Instance* instance )
: OccurrenceFilter()
, _instance(instance)
{ }
// **************************************************************************************************** Occurrence_Contains::Occurrence_Contains ( const Occurrence_Contains& other )
// OccurrenceLocator declaration : OccurrenceFilter()
// **************************************************************************************************** , _instance(other._instance)
{ }
typedef GenericLocator<Occurrence> OccurrenceLocator;
#define for_each_occurrence(occurrence, occurrences) \
// **************************************************************************************************** { \
// OccurrenceFilter declaration OccurrenceLocator _locator = occurrences.getLocator(); \
// **************************************************************************************************** while (_locator.isValid()) { \
Occurrence occurrence = _locator.getElement(); \
typedef GenericFilter<Occurrence> OccurrenceFilter;
// ****************************************************************************************************
// for_each_occurrence declaration
// ****************************************************************************************************
#define for_each_occurrence(occurrence, occurrences)\
/************************************************/\
{\
OccurrenceLocator _locator = occurrences.getLocator();\
while (_locator.isValid()) {\
Occurrence occurrence = _locator.getElement();\
_locator.progress(); _locator.progress();
} // Hurricane namespace.
} // End of Hurricane namespace.
#endif // HURRICANE_OCCURENCES #endif // HURRICANE_OCCURENCES
// ****************************************************************************************************
// Copyright (c) BULL S.A. 2000-2016, All Rights Reserved
// ****************************************************************************************************

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@ -15,6 +15,8 @@
katana/DataSymmetric.h katana/DataSymmetric.h
katana/TrackElement.h katana/TrackElements.h katana/TrackElement.h katana/TrackElements.h
katana/TrackSegment.h katana/TrackSegment.h
katana/TrackSegmentRegular.h
katana/TrackSegmentWide.h
katana/TrackFixedSegment.h katana/TrackFixedSegment.h
katana/TrackMarker.h katana/TrackMarker.h
katana/Track.h katana/Track.h
@ -47,6 +49,8 @@
TrackElement.cpp TrackElement.cpp
TrackElements.cpp TrackElements.cpp
TrackSegment.cpp TrackSegment.cpp
TrackSegmentRegular.cpp
TrackSegmentWide.cpp
TrackFixedSegment.cpp TrackFixedSegment.cpp
TrackMarker.cpp TrackMarker.cpp
Track.cpp Track.cpp

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@ -781,7 +781,7 @@ namespace Katana {
_fsm.setState ( SegmentFsm::OtherRipup ); _fsm.setState ( SegmentFsm::OtherRipup );
_fsm.addAction( _segment _fsm.addAction( _segment
, SegmentAction::SelfInsert|SegmentAction::MoveToAxis|SegmentAction::EventLevel4 , SegmentAction::SelfInsert|SegmentAction::MoveToAxis|SegmentAction::EventLevel4
, _fsm.getCost(itrack).getTrack()->getAxis() ); , _fsm.getTrack1(itrack)->getAxis() );
uint32_t flags = 0; uint32_t flags = 0;
if ( rightIntrication ) flags |= RightAxisHint; if ( rightIntrication ) flags |= RightAxisHint;
@ -850,7 +850,7 @@ namespace Katana {
_fsm.setState ( SegmentFsm::OtherRipup ); _fsm.setState ( SegmentFsm::OtherRipup );
_fsm.addAction( _segment _fsm.addAction( _segment
, SegmentAction::SelfInsert|SegmentAction::MoveToAxis , SegmentAction::SelfInsert|SegmentAction::MoveToAxis
, _fsm.getCost(itrack).getTrack()->getAxis() ); , _fsm.getTrack(itrack)->getAxis() );
} }
cdebug_tabw(159,-1); cdebug_tabw(159,-1);
@ -932,15 +932,15 @@ namespace Katana {
{ {
cdebug_log(159,1) << "Manipulator::forceOverLocals()" << endl; cdebug_log(159,1) << "Manipulator::forceOverLocals()" << endl;
vector< array<TrackCost,2> >& costs = _fsm.getCosts(); vector<TrackCost*>& costs = _fsm.getCosts();
size_t itrack = 0; size_t itrack = 0;
for ( ; itrack<costs.size() ; ++itrack ) { for ( ; itrack<costs.size() ; ++itrack ) {
cdebug_log(159,0) << "Trying itrack:" << itrack << endl; cdebug_log(159,0) << "Trying itrack:" << itrack << endl;
if ( costs[itrack][0].isFixed() if ( costs[itrack]->isFixed()
or costs[itrack][0].isBlockage() or costs[itrack]->isBlockage()
or costs[itrack][0].isInfinite() or costs[itrack]->isInfinite()
or costs[itrack][0].isOverlapGlobal() ) or costs[itrack]->isOverlapGlobal() )
continue; continue;
bool success = true; bool success = true;
@ -979,7 +979,7 @@ namespace Katana {
_fsm.setState ( SegmentFsm::OtherRipup ); _fsm.setState ( SegmentFsm::OtherRipup );
_fsm.addAction( _segment _fsm.addAction( _segment
, SegmentAction::SelfInsert|SegmentAction::MoveToAxis , SegmentAction::SelfInsert|SegmentAction::MoveToAxis
, _fsm.getCost(itrack).getTrack()->getAxis() , _fsm.getTrack(itrack)->getAxis()
); );
break; break;
} }

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@ -507,7 +507,7 @@ namespace Katana {
cmess2 << " <event:" << tty::bold << right << setw(8) << setfill('0') cmess2 << " <event:" << tty::bold << right << setw(8) << setfill('0')
<< RoutingEvent::getProcesseds() << tty::reset << RoutingEvent::getProcesseds() << tty::reset
<< " remains:" << right << setw(8) << setfill('0') << " remains:" << right << setw(8) << setfill('0')
<< _eventQueue.size()+1 << _eventQueue.size()
<< setfill(' ') << tty::reset << ">" << tty::cr; << setfill(' ') << tty::reset << ">" << tty::cr;
cmess2.flush (); cmess2.flush ();
} else { } else {

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@ -475,7 +475,7 @@ namespace Katana {
itrack = 0; itrack = 0;
if ( (not isOverConstrained()) and fsm.canRipup() ) { if ( (not isOverConstrained()) and fsm.canRipup() ) {
if (fsm.getCosts().size() and fsm.getCost(itrack).isFree()) { if (fsm.getCosts().size() and fsm.getCost(itrack)->isFree()) {
cdebug_log(159,0) << "Insert in free space " << this << endl; cdebug_log(159,0) << "Insert in free space " << this << endl;
fsm.bindToTrack( itrack ); fsm.bindToTrack( itrack );
} else { } else {
@ -491,7 +491,7 @@ namespace Katana {
} }
for ( itrack=0 ; itrack<fsm.getCosts().size() ; itrack++ ) { for ( itrack=0 ; itrack<fsm.getCosts().size() ; itrack++ ) {
cdebug_log(159,0) << "Trying Track: " << itrack << endl; cdebug_log(159,0) << "Trying Track: " << itrack << endl;
if (fsm.getCost(itrack).isInfinite()) break; if (fsm.getCost(itrack)->isInfinite()) break;
if (fsm.insertInTrack(itrack)) break; if (fsm.insertInTrack(itrack)) break;
resetInsertState(); resetInsertState();
} // Next ripup is possible. } // Next ripup is possible.
@ -516,7 +516,7 @@ namespace Katana {
fsm.doActions(); fsm.doActions();
if (itrack < fsm.getCosts().size()) { if (itrack < fsm.getCosts().size()) {
cdebug_log(159,0) << "Placed: @" << DbU::getValueString(fsm.getCost(itrack).getTrack()->getAxis()) cdebug_log(159,0) << "Placed: @" << DbU::getValueString(fsm.getTrack1(itrack)->getAxis())
<< " " << this << endl; << " " << this << endl;
} }
@ -541,10 +541,10 @@ namespace Katana {
if ( _segment->getTrack() if ( _segment->getTrack()
and fsm.getCosts().size() and fsm.getCosts().size()
and fsm.getCost(0).isFree() and fsm.getCost(0)->isFree()
and (fsm.getCost(0).getTrack() != _segment->getTrack()) ) { and (fsm.getTrack1(0) != _segment->getTrack()) ) {
cerr << "_processPack(): move to " << fsm.getCost(0).getTrack() << endl; cerr << "_processPack(): move to " << fsm.getTrack1(0) << endl;
fsm.moveToTrack( 0 ); fsm.moveToTrack( 0 );
} }
} }
@ -569,7 +569,7 @@ namespace Katana {
cdebug_log(159,0) << "| " << fsm.getCost(i) << endl; cdebug_log(159,0) << "| " << fsm.getCost(i) << endl;
cdebug_tabw(159,-1); cdebug_tabw(159,-1);
if (fsm.getCosts().size() and fsm.getCost(0).isFree()) { if (fsm.getCosts().size() and fsm.getCost(0)->isFree()) {
cdebug_log(159,0) << "Insert in free space." << endl; cdebug_log(159,0) << "Insert in free space." << endl;
fsm.bindToTrack( 0 ); fsm.bindToTrack( 0 );
} else { } else {

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@ -36,26 +36,6 @@ namespace {
using namespace Katana; using namespace Katana;
// -------------------------------------------------------------------
// Class : "CompareCostArray".
class CompareCostArray {
public:
inline CompareCostArray ( uint32_t flags=0 );
inline bool operator() ( const array<TrackCost,2>& lhs, const array<TrackCost,2>& rhs );
private:
TrackCost::Compare _compare;
};
inline CompareCostArray::CompareCostArray ( uint32_t flags )
: _compare(flags)
{ }
inline bool CompareCostArray::operator() ( const array<TrackCost,2>& lhs, const array<TrackCost,2>& rhs )
{ return _compare( lhs[0], rhs[0] ); }
// ------------------------------------------------------------------- // -------------------------------------------------------------------
// Class : "Cs1Candidate". // Class : "Cs1Candidate".
@ -479,7 +459,6 @@ namespace Katana {
DataSymmetric* symData = NULL; DataSymmetric* symData = NULL;
TrackElement* segment1 = _event1->getSegment(); TrackElement* segment1 = _event1->getSegment();
TrackElement* segment2 = segment1->getSymmetric(); TrackElement* segment2 = segment1->getSymmetric();
uint32_t depth = Session::getRoutingGauge()->getLayerDepth(segment1->getLayer());
_event1->setTracksFree( 0 ); _event1->setTracksFree( 0 );
_data1 = segment1->getDataNegociate(); _data1 = segment1->getDataNegociate();
@ -562,58 +541,20 @@ namespace Katana {
// if ( segment->isLocal() and (_data->getState() >= DataNegociate::MaximumSlack) ) // if ( segment->isLocal() and (_data->getState() >= DataNegociate::MaximumSlack) )
// _constraint.inflate ( 0, DbU::lambda(1.0) ); // _constraint.inflate ( 0, DbU::lambda(1.0) );
bool inLocalDepth = (depth < 3);
bool isOneLocalTrack = (segment1->isLocal())
and (segment1->base()->getAutoSource()->getGCell()->getGlobalsCount(depth) >= 9.0);
RoutingPlane* plane = Session::getKatanaEngine()->getRoutingPlaneByLayer(segment1->getLayer()); RoutingPlane* plane = Session::getKatanaEngine()->getRoutingPlaneByLayer(segment1->getLayer());
for ( Track* track1 : Tracks_Range::get(plane,_constraint) ) { for ( Track* track1 : Tracks_Range::get(plane,_constraint) ) {
uint32_t costflags = 0;
costflags |= (segment1->isLocal() and (depth >= 3)) ? TrackCost::LocalAndTopDepth : 0;
costflags |= (segment1->isAnalog()) ? TrackCost::Analog : 0;
Track* track2 = NULL; Track* track2 = NULL;
if (_event2) { if (_event2) {
track2 = track2 =
(_sameAxis) ? track1 : plane->getTrackByPosition( symData->getSymmetrical( track1->getAxis() ) ); (_sameAxis) ? track1 : plane->getTrackByPosition( symData->getSymmetrical( track1->getAxis() ) );
} }
_costs.push_back( array<TrackCost,2>( { TrackCost(NULL), TrackCost(NULL) } ) ); _costs.push_back( new TrackCost(segment1,segment2,track1,track2) );
if (not segment1->isReduced()) {
_costs.back()[0] = track1->getOverlapCost(segment1,costflags);
if (_event2) _costs.back()[1] = track2->getOverlapCost(segment2,costflags);
} else {
_costs.back()[0] = TrackCost(track1);
if (_event2) _costs.back()[1] = TrackCost(track2);
}
_costs.back()[0].setAxisWeight ( _event1->getAxisWeight(track1->getAxis()) ); if ( _fullBlocked and (not _costs.back()->isBlockage() and not _costs.back()->isFixed()) )
_costs.back()[0].incDeltaPerpand( _data1->getWiringDelta(track1->getAxis()) );
if (_event2) {
_costs.back()[1].setAxisWeight ( _event2->getAxisWeight(track2->getAxis()) );
_costs.back()[1].incDeltaPerpand( _data2->getWiringDelta(track2->getAxis()) );
_costs.back()[0].merge( _costs.back()[1] );
}
if (segment1->isGlobal()) {
cdebug_log(9000,0) << "Deter| setForGlobal() on " << track1 << endl;
_costs.back()[0].setForGlobal();
}
if ( inLocalDepth and (_costs.back()[0].getDataState() == DataNegociate::MaximumSlack) )
_costs.back()[0].setInfinite();
if ( isOneLocalTrack
and _costs.back()[0].isOverlapGlobal()
and (_costs.back()[0].getDataState() >= DataNegociate::ConflictSolveByHistory) )
_costs.back()[0].setInfinite();
_costs.back()[0].consolidate();
if ( _fullBlocked and (not _costs.back()[0].isBlockage() and not _costs.back()[0].isFixed()) )
_fullBlocked = false; _fullBlocked = false;
cdebug_log(155,0) << "| " << _costs.back()[0] << ((_fullBlocked)?" FB ": " -- ") << track1 << endl; cdebug_log(155,0) << "| " << _costs.back() << ((_fullBlocked)?" FB ": " -- ") << track1 << endl;
} }
cdebug_tabw(159,-1); cdebug_tabw(159,-1);
@ -648,16 +589,18 @@ namespace Katana {
// FOR ANALOG ONLY. // FOR ANALOG ONLY.
//flags |= TrackCost::IgnoreSharedLength; //flags |= TrackCost::IgnoreSharedLength;
sort( _costs.begin(), _costs.end(), CompareCostArray(flags) ); sort( _costs.begin(), _costs.end(), TrackCost::Compare(flags) );
size_t i=0; size_t i=0;
for ( ; (i<_costs.size()) and _costs[i][0].isFree() ; i++ ); for ( ; (i<_costs.size()) and _costs[i]->isFree() ; i++ );
_event1->setTracksFree ( i ); _event1->setTracksFree( i );
if (_event2) _event2->setTracksFree( i );
if (_event2) {
for ( ; (i<_costs.size()) and _costs[i][1].isFree() ; i++ );
_event2->setTracksFree ( i );
} }
SegmentFsm::~SegmentFsm ()
{
for ( TrackCost* cost : _costs ) delete cost;
} }
@ -761,8 +704,8 @@ namespace Katana {
_event1->updateAxisHistory(); _event1->updateAxisHistory();
_event1->setEventLevel( 0 ); _event1->setEventLevel( 0 );
cdebug_log(9000,0) << "Deter| addInsertEvent() @" << getCost1(i).getTrack() << endl; cdebug_log(9000,0) << "Deter| addInsertEvent() @" << getTrack1(i) << endl;
Session::addInsertEvent( getSegment1(), getCost1(i).getTrack() ); Session::addInsertEvent( getSegment1(), getTrack1(i) );
if (_event2) { if (_event2) {
_event2->resetInsertState(); _event2->resetInsertState();
@ -770,8 +713,8 @@ namespace Katana {
_event2->setEventLevel( 0 ); _event2->setEventLevel( 0 );
_event2->setProcessed( true ); _event2->setProcessed( true );
cdebug_log(9000,0) << "Deter| addInsertEvent() @" << getCost1(i).getTrack() << endl; cdebug_log(9000,0) << "Deter| addInsertEvent() @" << getTrack1(i) << endl;
Session::addInsertEvent( getSegment2(), getCost2(i).getTrack() ); Session::addInsertEvent( getSegment2(), getTrack2(i) );
} }
setState( SegmentFsm::SelfInserted ); setState( SegmentFsm::SelfInserted );
@ -782,11 +725,11 @@ namespace Katana {
{ {
cdebug_log(159,0) << "SegmentFsm::moveToTrack() :" << " track:" << i << endl; cdebug_log(159,0) << "SegmentFsm::moveToTrack() :" << " track:" << i << endl;
Session::addMoveEvent( getSegment1(), getCost1(i).getTrack() ); Session::addMoveEvent( getSegment1(), getTrack1(i) );
if (_event2) { if (_event2) {
cdebug_log(9000,0) << "Deter| addInsertEvent() @" << getCost1(i).getTrack() << endl; cdebug_log(9000,0) << "Deter| addInsertEvent() @" << getTrack1(i) << endl;
Session::addMoveEvent( getSegment2(), getCost2(i).getTrack() ); Session::addMoveEvent( getSegment2(), getTrack2(i) );
} }
setState( SegmentFsm::SelfInserted ); setState( SegmentFsm::SelfInserted );
@ -1045,10 +988,10 @@ namespace Katana {
Interval overlap = segment->getCanonicalInterval(); Interval overlap = segment->getCanonicalInterval();
size_t begin; size_t begin;
size_t end; size_t end;
getCost(icost).getTrack()->getOverlapBounds( overlap, begin, end ); getTrack1(icost)->getOverlapBounds( overlap, begin, end );
for ( ; begin<end ; ++begin ) { for ( ; begin<end ; ++begin ) {
TrackElement* other = getCost(icost).getTrack()->getSegment(begin); TrackElement* other = getTrack1(icost)->getSegment(begin);
Interval otherOverlap = other->getCanonicalInterval(); Interval otherOverlap = other->getCanonicalInterval();
if (other->getNet() == segment->getNet()) continue; if (other->getNet() == segment->getNet()) continue;
@ -1087,9 +1030,9 @@ namespace Katana {
size_t begin; size_t begin;
size_t end; size_t end;
getCost(0).getTrack()->getOverlapBounds ( overlap, begin, end ); getTrack1(0)->getOverlapBounds ( overlap, begin, end );
for ( ; begin<end ; ++begin ) { for ( ; begin<end ; ++begin ) {
TrackElement* other = getCost(0).getTrack()->getSegment(begin); TrackElement* other = getTrack1(0)->getSegment(begin);
Interval otherOverlap = other->getCanonicalInterval(); Interval otherOverlap = other->getCanonicalInterval();
if ( other->getNet() == segment->getNet() ) continue; if ( other->getNet() == segment->getNet() ) continue;
@ -1124,7 +1067,7 @@ namespace Katana {
for ( ; itrack<getCosts().size() ; ++itrack ) { for ( ; itrack<getCosts().size() ; ++itrack ) {
cdebug_log(159,0) << "Trying track:" << itrack << endl; cdebug_log(159,0) << "Trying track:" << itrack << endl;
if ( getCost(itrack).isGlobalEnclosed() ) { if ( getCost(itrack)->isGlobalEnclosed() ) {
Track* track = getTrack(itrack); Track* track = getTrack(itrack);
size_t begin = getBegin(itrack); size_t begin = getBegin(itrack);
size_t end = getEnd (itrack); size_t end = getEnd (itrack);
@ -1161,7 +1104,7 @@ namespace Katana {
setState ( SegmentFsm::OtherRipup ); setState ( SegmentFsm::OtherRipup );
addAction( segment addAction( segment
, SegmentAction::SelfInsert|SegmentAction::MoveToAxis , SegmentAction::SelfInsert|SegmentAction::MoveToAxis
, getCost(itrack).getTrack()->getAxis() , getTrack1(itrack)->getAxis()
); );
break; break;
} }

View File

@ -277,15 +277,16 @@ namespace Katana {
} }
TrackCost Track::getOverlapCost ( Interval interval TrackCost& Track::addOverlapCost ( TrackCost& cost ) const
, Net* net
, size_t begin
, size_t end
, uint32_t flags ) const
{ {
TrackCost cost ( const_cast<Track*>(this), interval, begin, end, net, flags ); size_t begin = Track::npos;
size_t end = Track::npos;
const Interval& interval = cost.getInterval();
cdebug_log(155,1) << "getOverlapCost() @" << DbU::getValueString(_axis) getOverlapBounds( cost.getInterval(), begin, end );
cost.setTrack( const_cast<Track*>(this), begin, end );
cdebug_log(155,1) << "addOverlapCost() @" << DbU::getValueString(_axis)
<< " [" << DbU::getValueString(interval.getVMin()) << " [" << DbU::getValueString(interval.getVMin())
<< ":" << DbU::getValueString(interval.getVMax()) << ":" << DbU::getValueString(interval.getVMax())
<< "] <-> [" << begin << ":" << end << "]" << "] <-> [" << begin << ":" << end << "]"
@ -298,7 +299,7 @@ namespace Katana {
for ( ; (mbegin < _markers.size()) for ( ; (mbegin < _markers.size())
and (_markers[mbegin]->getSourceU() <= interval.getVMax()) ; mbegin++ ) { and (_markers[mbegin]->getSourceU() <= interval.getVMax()) ; mbegin++ ) {
cdebug_log(155,0) << "| @" << DbU::getValueString(_axis) << _markers[mbegin] << endl; cdebug_log(155,0) << "| @" << DbU::getValueString(_axis) << _markers[mbegin] << endl;
if ( _markers[mbegin]->getNet() != net ) { if (_markers[mbegin]->getNet() != cost.getNet()) {
cdebug_log(155,0) << "* Mark: @" << DbU::getValueString(_axis) << " " << _markers[mbegin] << endl; cdebug_log(155,0) << "* Mark: @" << DbU::getValueString(_axis) << " " << _markers[mbegin] << endl;
cost.incTerminals( _markers[mbegin]->getWeight(this) ); cost.incTerminals( _markers[mbegin]->getWeight(this) );
} }
@ -312,12 +313,12 @@ namespace Katana {
for ( ; begin < end ; begin++ ) { for ( ; begin < end ; begin++ ) {
Interval overlap = interval.getIntersection( _segments[begin]->getCanonicalInterval() ); Interval overlap = interval.getIntersection( _segments[begin]->getCanonicalInterval() );
if ( _segments[begin]->getNet() == net ) { if (_segments[begin]->getNet() == cost.getNet()) {
cdebug_log(155,0) << "overlap:" << overlap << " size:" << overlap.getSize() << endl; cdebug_log(155,0) << "overlap:" << overlap << " size:" << overlap.getSize() << endl;
cost.incDeltaShared ( overlap.getSize() ); cost.incDeltaShared ( overlap.getSize() );
} }
_segments[begin]->incOverlapCost( net, cost ); _segments[begin]->incOverlapCost( cost );
cdebug_log(155,0) << "| overlap: " << _segments[begin] << " cost:" << cost << endl; cdebug_log(155,0) << "| overlap: " << _segments[begin] << " cost:" << &cost << endl;
if (cost.isInfinite()) break; if (cost.isInfinite()) break;
} }
@ -328,21 +329,6 @@ namespace Katana {
} }
TrackCost Track::getOverlapCost ( Interval interval, Net* net, uint32_t flags ) const
{
size_t begin;
size_t end;
getOverlapBounds( interval, begin, end );
return getOverlapCost( interval, net, begin, end, flags );
}
TrackCost Track::getOverlapCost ( TrackElement* segment, uint32_t flags ) const
{ return getOverlapCost ( segment->getCanonicalInterval(), segment->getNet(), flags ); }
void Track::getTerminalWeight ( Interval interval, Net* net, size_t& count, uint32_t& weight ) const void Track::getTerminalWeight ( Interval interval, Net* net, size_t& count, uint32_t& weight ) const
{ {
cdebug_log(155,1) << "getTerminalWeight() @" << DbU::getValueString(_axis) cdebug_log(155,1) << "getTerminalWeight() @" << DbU::getValueString(_axis)
@ -468,10 +454,10 @@ namespace Katana {
,getString(segment).c_str()) << endl; ,getString(segment).c_str()) << endl;
} }
segment->setAxis ( getAxis() );
_segments.push_back ( segment ); _segments.push_back ( segment );
_segmentsValid = false; _segmentsValid = false;
//segment->setAxis ( getAxis() );
segment->setTrack ( this ); segment->setTrack ( this );
} }

View File

@ -19,6 +19,7 @@
#include <iostream> #include <iostream>
#include "katana/Track.h" #include "katana/Track.h"
#include "katana/TrackCost.h" #include "katana/TrackCost.h"
#include "katana/TrackElement.h"
#include "katana/Session.h" #include "katana/Session.h"
@ -26,63 +27,27 @@ namespace Katana {
using std::cerr; using std::cerr;
using std::endl; using std::endl;
using Hurricane::Error;
// ------------------------------------------------------------------- // -------------------------------------------------------------------
// Class : "TrackCost". // Class : "TrackCost".
TrackCost::TrackCost ( Track* track ) TrackCost::TrackCost ( TrackElement* refSegment
: _flags (ZeroCost) , TrackElement* symSegment
, _track (track) , Track* refTrack
, _begin (Track::npos) , Track* symTrack
, _end (Track::npos)
, _interval ()
, _forGlobal (false)
, _blockage (false)
, _fixed (false)
, _infinite (false)
, _hardOverlap (false)
, _overlap (false)
, _leftOverlap (false)
, _rightOverlap (false)
, _overlapGlobal (false)
, _globalEnclosed (false)
, _terminals (0)
, _delta (0)
, _deltaShared (0)
, _deltaPerpand (0)
, _axisWeight (0)
, _distanceToFixed(2*Session::getSliceHeight())
, _longuestOverlap(0)
, _dataState (0)
, _ripupCount (0)
{ }
TrackCost::TrackCost ( Track* track
, const Interval& interval
, size_t begin
, size_t end
, Net* net
, uint32_t flags
) )
: _flags (flags) : _flags ((symSegment) ? Symmetric : NoFlags)
, _track (track) , _span (1)
, _begin (begin) , _tracks ( _span * ((symSegment) ? 2 : 1)
, _end (end) , std::tuple<Track*,size_t,size_t>(NULL,Track::npos,Track::npos) )
, _interval (interval) , _segment1 (refSegment)
, _forGlobal (false) , _segment2 (symSegment)
, _blockage (false) , _interval1 (refSegment->getCanonicalInterval())
, _fixed (false) , _interval2 ((symSegment) ? symSegment->getCanonicalInterval() : Interval())
, _infinite (false)
, _hardOverlap (false)
, _overlap (false)
, _leftOverlap (false)
, _rightOverlap (false)
, _overlapGlobal (false)
, _globalEnclosed (false)
, _terminals (0) , _terminals (0)
, _delta (-interval.getSize()) , _delta (-_interval1.getSize() -_interval2.getSize())
, _deltaShared (0) , _deltaShared (0)
, _deltaPerpand (0) , _deltaPerpand (0)
, _axisWeight (0) , _axisWeight (0)
@ -90,94 +55,76 @@ namespace Katana {
, _longuestOverlap(0) , _longuestOverlap(0)
, _dataState (0) , _dataState (0)
, _ripupCount (0) , _ripupCount (0)
, _selectFlags (NoFlags)
, _selectIndex (0)
{ {
if (not (_flags & Analog)) { std::get<0>( _tracks[0] ) = refTrack;
// This is the GCell side (it is *one* cell height from the gauge). _segment1->addOverlapCost( *this );
DbU::Unit cellHeight = Session::getSliceHeight();
TrackElement* neighbor; if (symTrack) {
if ( _begin != Track::npos ) { std::get<0>( _tracks[_span] ) = symTrack;
neighbor = _track->getSegment(_begin); select( 0, Symmetric );
if ( neighbor and (neighbor->getNet() != net) ) { _segment2->addOverlapCost( *this );
DbU::Unit distance = interval.getVMin() - neighbor->getTargetU();
if ( distance < cellHeight )
_distanceToFixed = distance;
}
// if ( neighbor and neighbor->isFixed() ) {
// if ( _distanceToFixed == DbU::Max ) _distanceToFixed = 0;
// _distanceToFixed += interval.getVMin() - neighbor->getTargetU();
// }
}
if ( _end != Track::npos ) {
neighbor = _track->getSegment(_end);
if ( neighbor and (neighbor->getNet() != net) ) {
DbU::Unit distance = neighbor->getSourceU() - interval.getVMax();
if ( _distanceToFixed == 2*cellHeight ) _distanceToFixed = 0;
if ( distance < cellHeight )
_distanceToFixed += distance;
}
// if ( neighbor and neighbor->isFixed() ) {
// if ( _distanceToFixed == DbU::Max ) _distanceToFixed = 0;
// _distanceToFixed += neighbor->getSourceU() - interval.getVMax();
// }
}
} }
consolidate();
} }
TrackCost::~TrackCost () TrackCost::~TrackCost ()
{ } { }
bool TrackCost::isFree () const bool TrackCost::isFree () const
{ {
return /*(not _terminals) and*/ (not _overlap) and (not _infinite); return /*(not _terminals) and*/ (not isOverlap()) and (not isInfinite());
} }
bool TrackCost::Compare::operator() ( const TrackCost& lhs, const TrackCost& rhs ) bool TrackCost::Compare::operator() ( const TrackCost* lhs, const TrackCost* rhs )
{ {
if ( lhs._infinite xor rhs._infinite ) return rhs._infinite; if ( lhs->isInfinite() xor rhs->isInfinite() ) return rhs->isInfinite();
if ( (_flags & TrackCost::DiscardGlobals) if ( (_flags & TrackCost::DiscardGlobals)
and (lhs._overlapGlobal xor rhs._overlapGlobal) ) and (lhs->isOverlapGlobal() xor rhs->isOverlapGlobal()) )
return rhs._overlapGlobal; return rhs->isOverlapGlobal();
if ( lhs._hardOverlap xor rhs._hardOverlap ) return rhs._hardOverlap; if ( lhs->isHardOverlap() xor rhs->isHardOverlap() ) return rhs->isHardOverlap();
if ( lhs._ripupCount + (int)Session::getRipupCost() < rhs._ripupCount ) return true; if ( lhs->_ripupCount + (int)Session::getRipupCost() < rhs->_ripupCount ) return true;
if ( lhs._ripupCount > (int)Session::getRipupCost() + rhs._ripupCount ) return false; if ( lhs->_ripupCount > (int)Session::getRipupCost() + rhs->_ripupCount ) return false;
//int lhsRipupCost = (lhs._dataState<<2) + lhs._ripupCount; //int lhsRipupCost = (lhs->_dataState<<2) + lhs->_ripupCount;
//int rhsRipupCost = (rhs._dataState<<2) + rhs._ripupCount; //int rhsRipupCost = (rhs->_dataState<<2) + rhs->_ripupCount;
//if ( lhsRipupCost + (int)Session::getRipupCost() < rhsRipupCost ) return true; //if ( lhsRipupCost + (int)Session::getRipupCost() < rhsRipupCost ) return true;
//if ( lhsRipupCost > (int)Session::getRipupCost() + rhsRipupCost ) return false; //if ( lhsRipupCost > (int)Session::getRipupCost() + rhsRipupCost ) return false;
//if ( _flags & TrackCost::DiscardGlobals ) { //if ( _flags & TrackCost::DiscardGlobals ) {
// if ( lhs._longuestOverlap < rhs._longuestOverlap ) return true; // if ( lhs->_longuestOverlap < rhs->_longuestOverlap ) return true;
// if ( lhs._longuestOverlap > rhs._longuestOverlap ) return false; // if ( lhs->_longuestOverlap > rhs->_longuestOverlap ) return false;
//} //}
if ( lhs._overlap xor rhs._overlap ) return rhs._overlap; if ( lhs->isOverlap() xor rhs->isOverlap() ) return rhs->isOverlap();
if ( lhs._terminals < rhs._terminals ) return true; if ( lhs->_terminals < rhs->_terminals ) return true;
if ( lhs._terminals > rhs._terminals ) return false; if ( lhs->_terminals > rhs->_terminals ) return false;
if (lhs._delta != rhs._delta) { if (lhs->_delta != rhs->_delta) {
//cdebug_log(155,0) << "TrackCost::Compare() lhs._delta:" << lhs._delta << " rhs._delta:" << rhs._delta << endl; //cdebug_log(155,0) << "TrackCost::Compare() lhs->_delta:" << lhs->_delta << " rhs->_delta:" << rhs->_delta << endl;
//if ( not (_flags & TrackCost::IgnoreSharedLength) or (lhs._delta > 0) or (rhs._delta > 0) ) { //if ( not (_flags & TrackCost::IgnoreSharedLength) or (lhs->_delta > 0) or (rhs->_delta > 0) ) {
//if ( (lhs._delta > 0) or (rhs._delta > 0) ) { //if ( (lhs->_delta > 0) or (rhs->_delta > 0) ) {
if (lhs._delta < rhs._delta) return true; if (lhs->_delta < rhs->_delta) return true;
if (lhs._delta > rhs._delta) return false; if (lhs->_delta > rhs->_delta) return false;
//} //}
// Both delta should be negative, chose the least one. // Both delta should be negative, chose the least one.
//return lhs._delta > rhs._delta; //return lhs->_delta > rhs->_delta;
return lhs._delta < rhs._delta; return lhs->_delta < rhs->_delta;
} }
#if 0 #if 0
DbU::Unit lhsMixedWeight = 0.5*lhs._deltaPerpand; DbU::Unit lhsMixedWeight = 0.5*lhs->_deltaPerpand;
DbU::Unit rhsMixedWeight = 0.5*rhs._deltaPerpand; DbU::Unit rhsMixedWeight = 0.5*rhs->_deltaPerpand;
if ( not (_flags & TrackCost::IgnoreAxisWeight) ) { if ( not (_flags & TrackCost::IgnoreAxisWeight) ) {
lhsMixedWeight += lhsMixedWeight; lhsMixedWeight += lhsMixedWeight;
@ -189,29 +136,46 @@ namespace Katana {
#endif #endif
if ( not (_flags & TrackCost::IgnoreAxisWeight) ) { if ( not (_flags & TrackCost::IgnoreAxisWeight) ) {
if ( lhs._axisWeight < rhs._axisWeight ) return true; if ( lhs->_axisWeight < rhs->_axisWeight ) return true;
if ( lhs._axisWeight > rhs._axisWeight ) return false; if ( lhs->_axisWeight > rhs->_axisWeight ) return false;
} }
if ( lhs._deltaPerpand < rhs._deltaPerpand ) return true; if ( lhs->_deltaPerpand < rhs->_deltaPerpand ) return true;
if ( lhs._deltaPerpand > rhs._deltaPerpand ) return false; if ( lhs->_deltaPerpand > rhs->_deltaPerpand ) return false;
if ( lhs._distanceToFixed > rhs._distanceToFixed ) return true; if ( lhs->_distanceToFixed > rhs->_distanceToFixed ) return true;
if ( lhs._distanceToFixed < rhs._distanceToFixed ) return false; if ( lhs->_distanceToFixed < rhs->_distanceToFixed ) return false;
return lhs.getTrack()->getAxis() < rhs.getTrack()->getAxis(); return lhs->getTrack(0)->getAxis() < rhs->getTrack(0)->getAxis();
} }
bool TrackCost::CompareByDelta::operator() ( const TrackCost& lhs, const TrackCost& rhs ) bool TrackCost::CompareByDelta::operator() ( const TrackCost* lhs, const TrackCost* rhs )
{ {
return lhs.getDelta() < rhs.getDelta(); return lhs->getDelta() < rhs->getDelta();
}
Net* TrackCost::getNet1 () const { return (_segment1) ? _segment1->getNet() : NULL; }
Net* TrackCost::getNet2 () const { return (_segment2) ? _segment2->getNet() : NULL; }
size_t TrackCost::getBegin ( size_t i, uint32_t flags ) const
{
if (i >= _span) return Track::npos;
return std::get<1>( _tracks[i + ((flags & Symmetric) ? _span : 0)] );
}
size_t TrackCost::getEnd ( size_t i, uint32_t flags ) const
{
if (i >= _span) return Track::npos;
return std::get<2>( _tracks[i + ((flags & Symmetric) ? _span : 0)] );
} }
void TrackCost::consolidate () void TrackCost::consolidate ()
{ {
if ( not _infinite and not _hardOverlap ) { if ( not isInfinite() and not isHardOverlap() ) {
cdebug_log(159,0) << "TrackCost::consolidate() " << _delta << " - " << _deltaShared << endl; cdebug_log(159,0) << "TrackCost::consolidate() " << _delta << " - " << _deltaShared << endl;
//_deltaPerpand += - (_deltaShared << 1); //_deltaPerpand += - (_deltaShared << 1);
_delta -= _deltaShared; _delta -= _deltaShared;
@ -221,16 +185,41 @@ namespace Katana {
} }
void TrackCost::merge ( const TrackCost& other ) void TrackCost::setDistanceToFixed ()
{ {
_terminals += other._terminals; if (_flags & Analog) return;
_delta += other._delta;
_deltaShared += other._deltaShared; // This is the GCell side (it is *one* cell height from the gauge).
_deltaPerpand += other._deltaPerpand; DbU::Unit cellHeight = Session::getSliceHeight();
_axisWeight += other._axisWeight;
_distanceToFixed = std::min( _distanceToFixed, other._distanceToFixed ); cdebug_log(159,0) << "TrackCost::setDistanceToFixed() begin:" << getBegin(0) << endl;
_longuestOverlap = std::min( _longuestOverlap, other._longuestOverlap );
_dataState = std::max( _dataState, other._dataState ); TrackElement* neighbor;
if (getBegin(0) != Track::npos) {
neighbor = getTrack(0)->getSegment(getBegin(0));
if ( neighbor and (neighbor->getNet() != getNet()) ) {
DbU::Unit distance = getInterval().getVMin() - neighbor->getTargetU();
if ( distance < cellHeight )
_distanceToFixed = distance;
}
// if ( neighbor and neighbor->isFixed() ) {
// if ( _distanceToFixed == DbU::Max ) _distanceToFixed = 0;
// _distanceToFixed += _interval.getVMin() - neighbor->getTargetU();
// }
}
if (getEnd(0) != Track::npos) {
neighbor = getTrack(0)->getSegment(getEnd(0));
if ( neighbor and (neighbor->getNet() != getNet()) ) {
DbU::Unit distance = neighbor->getSourceU() - getInterval().getVMax();
if ( _distanceToFixed == 2*cellHeight ) _distanceToFixed = 0;
if ( distance < cellHeight )
_distanceToFixed += distance;
}
// if ( neighbor and neighbor->isFixed() ) {
// if ( _distanceToFixed == DbU::Max ) _distanceToFixed = 0;
// _distanceToFixed += neighbor->getSourceU() - _interval.getVMax();
// }
}
} }
@ -238,17 +227,17 @@ namespace Katana {
{ {
string s = "<" + _getTypeName(); string s = "<" + _getTypeName();
s += " " + getString(_track); s += " " + getString(getTrack(0));
s += " " + getString(_dataState); s += " " + getString(_dataState);
s += "+" + getString(_ripupCount); s += "+" + getString(_ripupCount);
s += ":" + getString((_dataState<<2)+_ripupCount); s += ":" + getString((_dataState<<2)+_ripupCount);
s += " " + string ( (_infinite )?"I":"-" ); s += " " + string ( (isInfinite() )?"I":"-" );
s += string ( (_blockage )?"b":"-" ); s += string ( (isBlockage() )?"b":"-" );
s += string ( (_fixed )?"f":"-" ); s += string ( (isFixed() )?"f":"-" );
s += string ( (_hardOverlap )?"h":"-" ); s += string ( (isHardOverlap() )?"h":"-" );
s += string ( (_overlap )?"o":"-" ); s += string ( (isOverlap() )?"o":"-" );
s += string ( (_overlapGlobal )?"g":"-" ); s += string ( (isOverlapGlobal() )?"g":"-" );
s += string ( (_globalEnclosed)?"e":"-" ); s += string ( (isGlobalEnclosed())?"e":"-" );
s += " " + getString(_terminals); s += " " + getString(_terminals);
s += "/" + /*DbU::getValueString(_delta)*/ getString(_delta); s += "/" + /*DbU::getValueString(_delta)*/ getString(_delta);
s += "-" + /*DbU::getValueString(_deltaShared)*/ getString(_deltaShared); s += "-" + /*DbU::getValueString(_deltaShared)*/ getString(_deltaShared);
@ -266,12 +255,10 @@ namespace Katana {
Record* TrackCost::_getRecord () const Record* TrackCost::_getRecord () const
{ {
Record* record = new Record ( _getString() ); Record* record = new Record ( _getString() );
record->add( getSlot ( "_track" , _track ) ); record->add( getSlot ( "_flags" , _flags ) );
record->add( getSlot ( "_begin" , &_begin ) ); record->add( getSlot ( "_tracks" , _tracks ) );
record->add( getSlot ( "_end" , &_end ) ); record->add( getSlot ( "_interval1" , &_interval1 ) );
record->add( getSlot ( "_interval" , &_interval ) ); record->add( getSlot ( "_interval2" , &_interval2 ) );
record->add( getSlot ( "_infinite" , _infinite ) );
record->add( getSlot ( "_overlap" , _overlap ) );
record->add( getSlot ( "_terminals" , _terminals ) ); record->add( getSlot ( "_terminals" , _terminals ) );
record->add( DbU::getValueSlot( "_delta" , &_delta ) ); record->add( DbU::getValueSlot( "_delta" , &_delta ) );
record->add( DbU::getValueSlot( "_deltaShared" , &_deltaShared ) ); record->add( DbU::getValueSlot( "_deltaShared" , &_deltaShared ) );

View File

@ -256,9 +256,9 @@ namespace Katana {
} }
void TrackElement::incOverlapCost ( Net* net, TrackCost& cost ) const void TrackElement::incOverlapCost ( TrackCost& cost ) const
{ {
if (not _track or (getNet() == net)) return; if (not _track or (getNet() == cost.getNet())) return;
_overlapCostCallback( this, cost ); _overlapCostCallback( this, cost );
} }

View File

@ -140,6 +140,7 @@ namespace Katana {
Flags TrackFixedSegment::getDirection () const { return getTrack()->getDirection(); } Flags TrackFixedSegment::getDirection () const { return getTrack()->getDirection(); }
const Layer* TrackFixedSegment::getLayer () const { return _segment->getLayer(); } const Layer* TrackFixedSegment::getLayer () const { return _segment->getLayer(); }
Interval TrackFixedSegment::getFreeInterval () const { return Interval(); } Interval TrackFixedSegment::getFreeInterval () const { return Interval(); }
size_t TrackFixedSegment::getTrackSpan () const { return 1; }
unsigned long TrackFixedSegment::getId () const unsigned long TrackFixedSegment::getId () const
@ -172,6 +173,15 @@ namespace Katana {
} }
void TrackFixedSegment::addOverlapCost ( TrackCost& cost ) const
{
Track* track = cost.getTrack();
if (not track) return;
track->addOverlapCost( cost );
}
float TrackFixedSegment::getPriority () const float TrackFixedSegment::getPriority () const
{ return 0.0; } { return 0.0; }

View File

@ -26,7 +26,8 @@
#include "anabatic/GCell.h" #include "anabatic/GCell.h"
#include "crlcore/RoutingGauge.h" #include "crlcore/RoutingGauge.h"
#include "katana/DataNegociate.h" #include "katana/DataNegociate.h"
#include "katana/TrackSegment.h" #include "katana/TrackSegmentRegular.h"
#include "katana/TrackSegmentWide.h"
#include "katana/Track.h" #include "katana/Track.h"
#include "katana/Session.h" #include "katana/Session.h"
#include "katana/RoutingEvent.h" #include "katana/RoutingEvent.h"
@ -69,8 +70,8 @@ namespace Katana {
, _dogLegLevel (0) , _dogLegLevel (0)
, _flags (NoFlags) , _flags (NoFlags)
{ {
cdebug_log(155,0) << "CTOR TrackSegment " << (void*)this << ":" << this << endl; cdebug_log(155,0) << "CTOR TrackSegment " << /*(void*)this <<*/ ":" << this << endl;
cdebug_log(155,0) << " over " << (void*)segment << ":" << segment << endl; cdebug_log(155,0) << " over " << /*(void*)segment <<*/ ":" << segment << endl;
setFlags( TElemCreated|TElemLocked ); setFlags( TElemCreated|TElemLocked );
if (segment) { if (segment) {
@ -129,16 +130,23 @@ namespace Katana {
{ {
created = false; created = false;
DbU::Unit defaultWireWidth = Session::getWireWidth( segment->base()->getLayer() );
TrackElement* trackElement = Session::lookup( segment->base() ); TrackElement* trackElement = Session::lookup( segment->base() );
if (not trackElement) { if (not trackElement) {
TrackSegment* trackSegment = new TrackSegment( segment, track ); if (segment->base()->getWidth() <= defaultWireWidth) {
trackSegment->_postCreate(); trackElement = new TrackSegmentRegular( segment, track );
trackElement->_postCreate();
created = true; created = true;
trackSegment->invalidate(); trackElement->invalidate();
cdebug_log(159,0) << "TrackSegment::create(): " << trackSegment << endl; cdebug_log(159,0) << "TrackSegment::create(): " << trackElement << endl;
trackElement = trackSegment; } else {
throw Error( "TrackSegment::create() Non-regular TrackSegment are not supported yet.\n"
" (on: %s)"
, getString(segment).c_str()
);
}
} }
return trackElement; return trackElement;
@ -356,7 +364,10 @@ namespace Katana {
void TrackSegment::setTrack ( Track* track ) void TrackSegment::setTrack ( Track* track )
{ TrackElement::setTrack( track ); } {
if (track) setAxis( track->getAxis(), Anabatic::SegAxisSet );
TrackElement::setTrack( track );
}
void TrackSegment::setSymmetric ( TrackElement* segment ) void TrackSegment::setSymmetric ( TrackElement* segment )

View File

@ -0,0 +1,111 @@
// -*- 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 |
// | K i t e - D e t a i l e d R o u t e r |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@asim.lip6.fr |
// | =============================================================== |
// | C++ Module : "./TrackSegmentRegular.cpp" |
// +-----------------------------------------------------------------+
#include <sstream>
#include <limits>
#include "hurricane/Bug.h"
#include "hurricane/Warning.h"
#include "hurricane/BasicLayer.h"
#include "hurricane/Net.h"
#include "hurricane/Name.h"
#include "hurricane/RoutingPad.h"
#include "anabatic/AutoContact.h"
#include "anabatic/GCell.h"
#include "crlcore/RoutingGauge.h"
#include "katana/DataNegociate.h"
#include "katana/TrackSegmentRegular.h"
#include "katana/Track.h"
#include "katana/Session.h"
#include "katana/RoutingEvent.h"
#include "katana/NegociateWindow.h"
#include "katana/KatanaEngine.h"
namespace Katana {
using namespace std;
using Hurricane::tab;
using Hurricane::Bug;
using Hurricane::Error;
using Hurricane::BasicLayer;
using Hurricane::Net;
using Hurricane::Name;
using Hurricane::RoutingPad;
using Anabatic::SegSlackened;
using Anabatic::perpandicularTo;
// -------------------------------------------------------------------
// Class : "TrackSegmentRegular".
TrackSegmentRegular::TrackSegmentRegular ( AutoSegment* segment, Track* track )
: Super(segment,track)
{
// cdebug_log(155,0) << "CTOR TrackSegmentRegular " << (void*)this << ":" << this << endl;
// cdebug_log(155,0) << " over " << (void*)segment << ":" << segment << endl;
}
void TrackSegmentRegular::_postCreate ()
{
Super::_postCreate();
}
TrackSegmentRegular::~TrackSegmentRegular ()
{
}
void TrackSegmentRegular::_preDestroy ()
{
Super::_preDestroy();
}
size_t TrackSegmentRegular::getTrackSpan () const { return 1; }
void TrackSegmentRegular::addOverlapCost ( TrackCost& cost ) const
{
uint32_t depth = Session::getRoutingGauge()->getLayerDepth(getLayer());
bool inLocalDepth = (depth < 3);
bool isOneLocalTrack = (isLocal()) and (base()->getAutoSource()->getGCell()->getGlobalsCount(depth) >= 9.0);
Track* track = cost.getTrack();
if (not track) return;
cost.setFlags( (isLocal() and (depth >= 3)) ? TrackCost::LocalAndTopDepth : 0 );
cost.setFlags( (isAnalog()) ? TrackCost::Analog : 0 );
track->addOverlapCost( cost );
cost.setDistanceToFixed();
cost.incAxisWeight ( getDataNegociate()->getRoutingEvent()->getAxisWeight(track->getAxis()) );
cost.incDeltaPerpand ( getDataNegociate()->getWiringDelta(track->getAxis()) );
if (isGlobal()) cost.setForGlobal();
if ( inLocalDepth and (cost.getDataState() == DataNegociate::MaximumSlack) )
cost.setInfinite();
if ( isOneLocalTrack
and cost.isOverlapGlobal()
and (cost.getDataState() >= DataNegociate::ConflictSolveByHistory) )
cost.setInfinite();
}
} // Katana namespace.

View File

@ -0,0 +1,121 @@
// -*- 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 |
// | K i t e - D e t a i l e d R o u t e r |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@asim.lip6.fr |
// | =============================================================== |
// | C++ Module : "./TrackSegmentWide.cpp" |
// +-----------------------------------------------------------------+
#include <sstream>
#include <limits>
#include "hurricane/Bug.h"
#include "hurricane/Warning.h"
#include "hurricane/BasicLayer.h"
#include "hurricane/Net.h"
#include "hurricane/Name.h"
#include "hurricane/RoutingPad.h"
#include "anabatic/AutoContact.h"
#include "anabatic/GCell.h"
#include "crlcore/RoutingGauge.h"
#include "katana/DataNegociate.h"
#include "katana/TrackSegmentWide.h"
#include "katana/Track.h"
#include "katana/Session.h"
#include "katana/RoutingEvent.h"
#include "katana/NegociateWindow.h"
#include "katana/KatanaEngine.h"
namespace Katana {
using namespace std;
using Hurricane::tab;
using Hurricane::Bug;
using Hurricane::Error;
using Hurricane::BasicLayer;
using Hurricane::Net;
using Hurricane::Name;
using Hurricane::RoutingPad;
using Anabatic::SegSlackened;
using Anabatic::perpandicularTo;
// -------------------------------------------------------------------
// Class : "TrackSegmentWide".
TrackSegmentWide::TrackSegmentWide ( AutoSegment* segment, Track* track, size_t trackSpan )
: Super(segment,track)
, _trackSpan(trackSpan)
{
cdebug_log(155,0) << "CTOR TrackSegmentWide " << (void*)this << ":" << this << endl;
cdebug_log(155,0) << " over " << (void*)segment << ":" << segment << endl;
if (not _trackSpan) {
DbU::Unit mWidth = std::max( Session::getWireWidth(getLayer()), Session::getViaWidth(getLayer()) );
if (segment->getWidth() < mWidth) {
_trackSpan = 1;
} else {
_trackSpan = ((segment->getWidth() - mWidth) / Session::getPitch(segment->getLayer())) + 2;
}
}
}
void TrackSegmentWide::_postCreate ()
{
Super::_postCreate();
}
TrackSegmentWide::~TrackSegmentWide ()
{
}
void TrackSegmentWide::_preDestroy ()
{
Super::_preDestroy();
}
size_t TrackSegmentWide::getTrackSpan () const { return _trackSpan; }
void TrackSegmentWide::addOverlapCost ( TrackCost& cost ) const
{
uint32_t depth = Session::getRoutingGauge()->getLayerDepth(getLayer());
bool inLocalDepth = (depth < 3);
Track* track = cost.getTrack();
if (not track) return;
cost.setFlags( (isLocal() and (depth >= 3)) ? TrackCost::LocalAndTopDepth : 0 );
cost.setFlags( (isAnalog()) ? TrackCost::Analog : 0 );
for ( size_t span=0 ; (span < _trackSpan) and (track != NULL) ; ++span ) {
track->addOverlapCost( cost );
// Todo: have to choose here wether we go *next* or *previous* according
// to the symmetry kind.
track = track->getNextTrack();
}
cost.setDistanceToFixed();
cost.incAxisWeight ( getDataNegociate()->getRoutingEvent()->getAxisWeight(track->getAxis()) );
cost.incDeltaPerpand ( getDataNegociate()->getWiringDelta(track->getAxis()) );
if (isGlobal()) cost.setForGlobal();
if ( inLocalDepth and (cost.getDataState() == DataNegociate::MaximumSlack) )
cost.setInfinite();
}
} // Katana namespace.

View File

@ -17,12 +17,10 @@
#ifndef KATANA_SEGMENT_FSM_H #ifndef KATANA_SEGMENT_FSM_H
#define KATANA_SEGMENT_FSM_H #define KATANA_SEGMENT_FSM_H
#include <array>
#include "katana/TrackCost.h" #include "katana/TrackCost.h"
namespace Katana { namespace Katana {
using std::array;
class TrackElement; class TrackElement;
class DataNegociate; class DataNegociate;
class RoutingEvent; class RoutingEvent;
@ -111,6 +109,7 @@ namespace Katana {
, RoutingEventQueue& , RoutingEventQueue&
, RoutingEventHistory& , RoutingEventHistory&
); );
~SegmentFsm ();
inline bool isFullBlocked () const; inline bool isFullBlocked () const;
inline bool isSymmetric () const; inline bool isSymmetric () const;
inline RoutingEvent* getEvent () const; inline RoutingEvent* getEvent () const;
@ -126,13 +125,17 @@ namespace Katana {
inline DataNegociate* getData2 (); inline DataNegociate* getData2 ();
inline Interval& getConstraint (); inline Interval& getConstraint ();
inline Interval& getOptimal (); inline Interval& getOptimal ();
inline vector< array<TrackCost,2> >& getCosts (); inline vector<TrackCost*>& getCosts ();
inline TrackCost& getCost ( size_t ); inline TrackCost* getCost ( size_t );
inline TrackCost& getCost1 ( size_t );
inline TrackCost& getCost2 ( size_t );
inline Track* getTrack ( size_t ); inline Track* getTrack ( size_t );
inline Track* getTrack1 ( size_t );
inline Track* getTrack2 ( size_t );
inline size_t getBegin ( size_t ); inline size_t getBegin ( size_t );
inline size_t getBegin1 ( size_t );
inline size_t getBegin2 ( size_t );
inline size_t getEnd ( size_t ); inline size_t getEnd ( size_t );
inline size_t getEnd1 ( size_t );
inline size_t getEnd2 ( size_t );
inline vector<SegmentAction>& getActions (); inline vector<SegmentAction>& getActions ();
inline void setState ( uint32_t ); inline void setState ( uint32_t );
void setDataState ( uint32_t ); void setDataState ( uint32_t );
@ -177,7 +180,7 @@ namespace Katana {
DataNegociate* _data2; DataNegociate* _data2;
Interval _constraint; Interval _constraint;
Interval _optimal; Interval _optimal;
vector< array<TrackCost,2> > _costs; vector<TrackCost*> _costs;
vector<SegmentAction> _actions; vector<SegmentAction> _actions;
bool _fullBlocked; bool _fullBlocked;
bool _sameAxis; bool _sameAxis;
@ -200,13 +203,17 @@ namespace Katana {
inline DataNegociate* SegmentFsm::getData2 () { return _data2; } inline DataNegociate* SegmentFsm::getData2 () { return _data2; }
inline Interval& SegmentFsm::getConstraint () { return _constraint; } inline Interval& SegmentFsm::getConstraint () { return _constraint; }
inline Interval& SegmentFsm::getOptimal () { return _optimal; } inline Interval& SegmentFsm::getOptimal () { return _optimal; }
inline vector< array<TrackCost,2> >& SegmentFsm::getCosts () { return _costs; } inline vector<TrackCost*>& SegmentFsm::getCosts () { return _costs; }
inline TrackCost& SegmentFsm::getCost ( size_t i ) { return _costs[i][0]; } inline TrackCost* SegmentFsm::getCost ( size_t i ) { return _costs[i]; }
inline TrackCost& SegmentFsm::getCost1 ( size_t i ) { return _costs[i][0]; } inline Track* SegmentFsm::getTrack ( size_t i ) { return (_useEvent2) ? getTrack2(i) : getTrack1(i); }
inline TrackCost& SegmentFsm::getCost2 ( size_t i ) { return _costs[i][1]; } inline size_t SegmentFsm::getBegin ( size_t i ) { return (_useEvent2) ? getBegin2(i) : getBegin1(i); }
inline Track* SegmentFsm::getTrack ( size_t i ) { return (_useEvent2) ? _costs[i][1].getTrack() : _costs[i][0].getTrack(); } inline size_t SegmentFsm::getEnd ( size_t i ) { return (_useEvent2) ? getEnd2 (i) : getEnd1 (i); }
inline size_t SegmentFsm::getBegin ( size_t i ) { return (_useEvent2) ? _costs[i][1].getBegin() : _costs[i][0].getBegin(); } inline Track* SegmentFsm::getTrack1 ( size_t i ) { return _costs[i]->getTrack(0,TrackCost::NoFlags ); }
inline size_t SegmentFsm::getEnd ( size_t i ) { return (_useEvent2) ? _costs[i][1].getEnd () : _costs[i][0].getEnd (); } inline Track* SegmentFsm::getTrack2 ( size_t i ) { return _costs[i]->getTrack(0,TrackCost::Symmetric); }
inline size_t SegmentFsm::getBegin1 ( size_t i ) { return _costs[i]->getBegin(0,TrackCost::NoFlags ); }
inline size_t SegmentFsm::getBegin2 ( size_t i ) { return _costs[i]->getBegin(0,TrackCost::Symmetric); }
inline size_t SegmentFsm::getEnd1 ( size_t i ) { return _costs[i]->getEnd (0,TrackCost::NoFlags ); }
inline size_t SegmentFsm::getEnd2 ( size_t i ) { return _costs[i]->getEnd (0,TrackCost::Symmetric); }
inline vector<SegmentAction>& SegmentFsm::getActions () { return _actions; } inline vector<SegmentAction>& SegmentFsm::getActions () { return _actions; }
inline void SegmentFsm::setState ( uint32_t state ) { _state = state; } inline void SegmentFsm::setState ( uint32_t state ) { _state = state; }
inline void SegmentFsm::clearActions () { _actions.clear(); } inline void SegmentFsm::clearActions () { _actions.clear(); }

View File

@ -95,9 +95,7 @@ namespace Katana {
Interval expandFreeInterval ( size_t& begin, size_t& end, uint32_t state, Net* ) const; Interval expandFreeInterval ( size_t& begin, size_t& end, uint32_t state, Net* ) const;
void getBeginIndex ( DbU::Unit position, size_t& begin, uint32_t& state ) const; void getBeginIndex ( DbU::Unit position, size_t& begin, uint32_t& state ) const;
void getOverlapBounds ( Interval, size_t& begin, size_t& end ) const; void getOverlapBounds ( Interval, size_t& begin, size_t& end ) const;
TrackCost getOverlapCost ( Interval, Net*, size_t begin, size_t end, uint32_t flags ) const; TrackCost& addOverlapCost ( TrackCost& ) const;
TrackCost getOverlapCost ( Interval, Net*, uint32_t flags ) const;
TrackCost getOverlapCost ( TrackElement*, uint32_t flags ) const;
void getTerminalWeight ( Interval, Net*, size_t& count, uint32_t& weight ) const; void getTerminalWeight ( Interval, Net*, size_t& count, uint32_t& weight ) const;
DbU::Unit getSourcePosition ( size_t index ) const; DbU::Unit getSourcePosition ( size_t index ) const;
bool check ( uint32_t& overlaps, const char* message=NULL ) const; bool check ( uint32_t& overlaps, const char* message=NULL ) const;

View File

@ -18,6 +18,7 @@
#define KATANA_TRACK_COST_H #define KATANA_TRACK_COST_H
#include <string> #include <string>
#include <tuple>
#include "hurricane/Interval.h" #include "hurricane/Interval.h"
namespace Hurricane { namespace Hurricane {
class Net; class Net;
@ -32,6 +33,7 @@ namespace Katana {
using Hurricane::Interval; using Hurricane::Interval;
using Hurricane::Net; using Hurricane::Net;
class Track; class Track;
class TrackElement;
// ------------------------------------------------------------------- // -------------------------------------------------------------------
@ -39,36 +41,48 @@ namespace Katana {
class TrackCost { class TrackCost {
public: public:
enum Flags { IgnoreAxisWeight = (1 << 0) enum Flags { NoFlags = 0
, IgnoreAxisWeight = (1 << 0)
, DiscardGlobals = (1 << 1) , DiscardGlobals = (1 << 1)
, IgnoreSharedLength = (1 << 2) , IgnoreSharedLength = (1 << 2)
, LocalAndTopDepth = (1 << 3) , LocalAndTopDepth = (1 << 3)
, ZeroCost = (1 << 4) , ZeroCost = (1 << 4)
, Analog = (1 << 5) , Analog = (1 << 5)
, Symmetric = (1 << 6)
, ForGlobal = (1 << 7)
, Blockage = (1 << 8)
, Fixed = (1 << 9)
, Infinite = (1 << 10)
, HardOverlap = (1 << 11)
, Overlap = (1 << 12)
, LeftOverlap = (1 << 13)
, RightOverlap = (1 << 14)
, OverlapGlobal = (1 << 15)
, GlobalEnclosed = (1 << 16)
, MergeMask = ForGlobal |Blockage|Fixed |Infinite
|HardOverlap |Overlap |RightOverlap|LeftOverlap|OverlapGlobal
|GlobalEnclosed
}; };
public: public:
// Sub-Class: "CompareByDelta()". // Sub-Class: "CompareByDelta()".
class CompareByDelta { class CompareByDelta {
public: public:
bool operator() ( const TrackCost& lhs, const TrackCost& rhs ); bool operator() ( const TrackCost* lhs, const TrackCost* rhs );
}; };
class Compare { class Compare {
public: public:
inline Compare ( uint32_t flags=0 ); inline Compare ( uint32_t flags=0 );
bool operator() ( const TrackCost& lhs, const TrackCost& rhs ); bool operator() ( const TrackCost* lhs, const TrackCost* rhs );
private: private:
uint32_t _flags; uint32_t _flags;
}; };
public: public:
TrackCost ( Track* track ); TrackCost ( TrackElement* refSegment
TrackCost ( Track* track , TrackElement* symSegment
, const Interval& interval , Track* refTrack
, size_t begin , Track* symTrack
, size_t end
, Net* net
, uint32_t flags
); );
~TrackCost (); ~TrackCost ();
inline bool isForGlobal () const; inline bool isForGlobal () const;
@ -82,11 +96,25 @@ namespace Katana {
inline bool isOverlapGlobal () const; inline bool isOverlapGlobal () const;
inline bool isGlobalEnclosed () const; inline bool isGlobalEnclosed () const;
bool isFree () const; bool isFree () const;
inline bool isSymmetric () const;
inline bool isWide () const;
inline uint32_t getFlags () const; inline uint32_t getFlags () const;
inline size_t getSpan () const;
inline Net* getNet () const;
Net* getNet1 () const;
Net* getNet2 () const;
inline Track* getTrack () const; inline Track* getTrack () const;
inline size_t getBegin () const; inline size_t getBegin () const;
inline size_t getEnd () const; inline size_t getEnd () const;
inline Track* getTrack ( size_t i ) const;
inline size_t getBegin ( size_t i ) const;
inline size_t getEnd ( size_t i ) const;
inline Track* getTrack ( size_t i, uint32_t flags ) const;
size_t getBegin ( size_t i, uint32_t flags ) const;
size_t getEnd ( size_t i, uint32_t flags ) const;
inline const Interval& getInterval () const; inline const Interval& getInterval () const;
inline const Interval& getInterval1 () const;
inline const Interval& getInterval2 () const;
inline uint32_t getTerminals () const; inline uint32_t getTerminals () const;
inline DbU::Unit getDelta () const; inline DbU::Unit getDelta () const;
inline DbU::Unit getDeltaPerpand () const; inline DbU::Unit getDeltaPerpand () const;
@ -94,6 +122,8 @@ namespace Katana {
inline long getAxisWeight () const; inline long getAxisWeight () const;
inline int getRipupCount () const; inline int getRipupCount () const;
inline uint32_t getDataState () const; inline uint32_t getDataState () const;
inline uint32_t setFlags ( uint32_t );
inline void setTrack ( Track*, size_t begin, size_t end );
inline void setForGlobal (); inline void setForGlobal ();
inline void setBlockage (); inline void setBlockage ();
inline void setFixed (); inline void setFixed ();
@ -108,34 +138,29 @@ namespace Katana {
inline void incDelta ( DbU::Unit ); inline void incDelta ( DbU::Unit );
inline void incDeltaPerpand ( DbU::Unit ); inline void incDeltaPerpand ( DbU::Unit );
inline void incDeltaShared ( DbU::Unit ); inline void incDeltaShared ( DbU::Unit );
inline void setAxisWeight ( DbU::Unit ); inline void incAxisWeight ( DbU::Unit );
inline void setLonguestOverlap ( DbU::Unit ); inline void setLonguestOverlap ( DbU::Unit );
inline void mergeRipupCount ( int ); inline void mergeRipupCount ( int );
inline void mergeDataState ( uint32_t ); inline void mergeDataState ( uint32_t );
void merge ( const TrackCost& ); inline bool select ( size_t index, uint32_t flags );
void consolidate (); void consolidate ();
void setDistanceToFixed ();
Record* _getRecord () const; Record* _getRecord () const;
string _getString () const; string _getString () const;
inline string _getTypeName () const; inline string _getTypeName () const;
// Operators. private:
TrackCost ( const TrackCost& ) = delete;
TrackCost& operator= ( const TrackCost& ) = delete;
// Attributes. // Attributes.
protected: private:
uint32_t _flags; uint32_t _flags;
Track* _track; size_t _span;
size_t _begin; std::vector< std::tuple<Track*,size_t,size_t> >
size_t _end; _tracks;
Interval _interval; TrackElement* _segment1;
bool _forGlobal; TrackElement* _segment2;
bool _blockage; Interval _interval1;
bool _fixed; Interval _interval2;
bool _infinite;
bool _hardOverlap;
bool _overlap;
bool _leftOverlap;
bool _rightOverlap;
bool _overlapGlobal;
bool _globalEnclosed;
uint32_t _terminals; uint32_t _terminals;
DbU::Unit _delta; DbU::Unit _delta;
DbU::Unit _deltaShared; DbU::Unit _deltaShared;
@ -145,59 +170,101 @@ namespace Katana {
DbU::Unit _longuestOverlap; DbU::Unit _longuestOverlap;
uint32_t _dataState; uint32_t _dataState;
int _ripupCount; int _ripupCount;
uint32_t _selectFlags;
size_t _selectIndex;
}; };
// Inline Functions. // Inline Functions.
inline bool TrackCost::isForGlobal () const { return _forGlobal; } inline bool TrackCost::isForGlobal () const { return _flags & ForGlobal; }
inline bool TrackCost::isBlockage () const { return _blockage; } inline bool TrackCost::isBlockage () const { return _flags & Blockage; }
inline bool TrackCost::isFixed () const { return _fixed; } inline bool TrackCost::isFixed () const { return _flags & Fixed; }
inline bool TrackCost::isInfinite () const { return _infinite; } inline bool TrackCost::isInfinite () const { return _flags & Infinite; }
inline bool TrackCost::isOverlap () const { return _overlap; } inline bool TrackCost::isOverlap () const { return _flags & Overlap; }
inline bool TrackCost::isLeftOverlap () const { return _leftOverlap; } inline bool TrackCost::isLeftOverlap () const { return _flags & LeftOverlap; }
inline bool TrackCost::isRightOverlap () const { return _rightOverlap; } inline bool TrackCost::isRightOverlap () const { return _flags & RightOverlap; }
inline bool TrackCost::isHardOverlap () const { return _hardOverlap; } inline bool TrackCost::isHardOverlap () const { return _flags & HardOverlap; }
inline bool TrackCost::isOverlapGlobal () const { return _overlapGlobal; } inline bool TrackCost::isOverlapGlobal () const { return _flags & OverlapGlobal; }
inline bool TrackCost::isGlobalEnclosed () const { return _globalEnclosed; } inline bool TrackCost::isGlobalEnclosed () const { return _flags & GlobalEnclosed; }
inline bool TrackCost::isSymmetric () const { return _flags & Symmetric; }
inline bool TrackCost::isWide () const { return (_span > 1); }
inline uint32_t TrackCost::getFlags () const { return _flags; } inline uint32_t TrackCost::getFlags () const { return _flags; }
inline Track* TrackCost::getTrack () const { return _track; } inline size_t TrackCost::getSpan () const { return _span; }
inline size_t TrackCost::getBegin () const { return _begin; } inline Net* TrackCost::getNet () const { return (_selectFlags & Symmetric) ? getNet2() : getNet1(); }
inline size_t TrackCost::getEnd () const { return _end; } inline Track* TrackCost::getTrack () const { return getTrack(_selectIndex,_selectFlags); }
inline const Interval& TrackCost::getInterval () const { return _interval; } inline Track* TrackCost::getTrack ( size_t i ) const { return getTrack(i,NoFlags); }
inline size_t TrackCost::getBegin () const { return getBegin(_selectIndex,_selectFlags); }
inline size_t TrackCost::getBegin ( size_t i ) const { return getBegin(i,NoFlags); }
inline size_t TrackCost::getEnd () const { return getEnd (_selectIndex,_selectFlags); }
inline size_t TrackCost::getEnd ( size_t i ) const { return getEnd (i,NoFlags); }
inline const Interval& TrackCost::getInterval () const { return (_selectFlags & Symmetric) ? getInterval2() : getInterval1(); }
inline const Interval& TrackCost::getInterval1 () const { return _interval1; }
inline const Interval& TrackCost::getInterval2 () const { return _interval2; }
inline uint32_t TrackCost::getTerminals () const { return _terminals; } inline uint32_t TrackCost::getTerminals () const { return _terminals; }
inline DbU::Unit TrackCost::getLongestOverlap () const { return _longuestOverlap; } inline DbU::Unit TrackCost::getLongestOverlap () const { return _longuestOverlap; }
inline DbU::Unit TrackCost::getDelta () const { return _delta; } inline DbU::Unit TrackCost::getDelta () const { return _delta; }
inline long TrackCost::getAxisWeight () const { return _axisWeight; } inline long TrackCost::getAxisWeight () const { return _axisWeight; }
inline int TrackCost::getRipupCount () const { return _ripupCount; } inline int TrackCost::getRipupCount () const { return _ripupCount; }
inline uint32_t TrackCost::getDataState () const { return _dataState; } inline uint32_t TrackCost::getDataState () const { return _dataState; }
inline void TrackCost::setForGlobal () { _forGlobal = true; } inline uint32_t TrackCost::setFlags ( uint32_t mask ) { _flags |= mask; return _flags; }
inline void TrackCost::setBlockage () { _blockage = true; } inline void TrackCost::setForGlobal () { _flags |= ForGlobal; }
inline void TrackCost::setFixed () { _fixed = true; } inline void TrackCost::setBlockage () { _flags |= Blockage; }
inline void TrackCost::setInfinite () { _infinite = true; } inline void TrackCost::setFixed () { _flags |= Fixed; }
inline void TrackCost::setOverlap () { _overlap = true; } inline void TrackCost::setInfinite () { _flags |= Infinite; }
inline void TrackCost::setLeftOverlap () { _leftOverlap = true; } inline void TrackCost::setOverlap () { _flags |= Overlap; }
inline void TrackCost::setRightOverlap () { _rightOverlap = true; } inline void TrackCost::setLeftOverlap () { _flags |= LeftOverlap; }
inline void TrackCost::setHardOverlap () { _hardOverlap = true; } inline void TrackCost::setRightOverlap () { _flags |= RightOverlap; }
inline void TrackCost::setOverlapGlobal () { _overlapGlobal = true; } inline void TrackCost::setHardOverlap () { _flags |= HardOverlap; }
inline void TrackCost::setGlobalEnclosed () { _globalEnclosed = true; } inline void TrackCost::setOverlapGlobal () { _flags |= OverlapGlobal; }
inline void TrackCost::setGlobalEnclosed () { _flags |= GlobalEnclosed; }
inline void TrackCost::incTerminals ( uint32_t terminals ) { _terminals += terminals; } inline void TrackCost::incTerminals ( uint32_t terminals ) { _terminals += terminals; }
inline void TrackCost::incDelta ( DbU::Unit delta ) { _delta += delta; } inline void TrackCost::incDelta ( DbU::Unit delta ) { _delta += delta; }
inline void TrackCost::incDeltaPerpand ( DbU::Unit delta ) { _deltaPerpand += delta; } inline void TrackCost::incDeltaPerpand ( DbU::Unit delta ) { _deltaPerpand += delta; }
inline void TrackCost::incDeltaShared ( DbU::Unit delta ) { _deltaShared += delta; } inline void TrackCost::incDeltaShared ( DbU::Unit delta ) { _deltaShared += delta; }
inline void TrackCost::setAxisWeight ( DbU::Unit weight ) { _axisWeight = weight; } inline void TrackCost::incAxisWeight ( DbU::Unit weight ) { _axisWeight += weight; }
inline void TrackCost::setLonguestOverlap ( DbU::Unit overlap ) { _longuestOverlap = (overlap > _longuestOverlap) ? overlap : _longuestOverlap; } inline void TrackCost::setLonguestOverlap ( DbU::Unit overlap ) { _longuestOverlap = std::max( overlap, _longuestOverlap ); }
inline void TrackCost::mergeRipupCount ( int count ) { _ripupCount = (count>_ripupCount)?count:_ripupCount; } inline void TrackCost::mergeRipupCount ( int count ) { _ripupCount = std::max( count , _ripupCount ); }
inline void TrackCost::mergeDataState ( uint32_t state ) { _dataState = (state>_dataState)?state:_dataState; } inline void TrackCost::mergeDataState ( uint32_t state ) { _dataState = std::max( state , _dataState ); }
inline string TrackCost::_getTypeName () const { return "TrackCost"; } inline string TrackCost::_getTypeName () const { return "TrackCost"; }
inline TrackCost::Compare::Compare ( uint32_t flags ) : _flags(flags) { } inline TrackCost::Compare::Compare ( uint32_t flags ) : _flags(flags) { }
inline bool TrackCost::select ( size_t index, uint32_t flags )
{
if ( (index >= _span) or ((flags & Symmetric) and not (_flags & Symmetric)) ) {
_selectIndex = 0;
_selectFlags = NoFlags;
return false;
}
_selectIndex = index;
_selectFlags = flags;
return true;
}
inline Track* TrackCost::getTrack ( size_t i, uint32_t flags ) const
{
if (i >= _span) return NULL;
return std::get<0>( _tracks[i + ((flags & Symmetric) ? _span : 0)] );
}
inline void TrackCost::setTrack ( Track* track, size_t begin, size_t end )
{
auto& entry = _tracks[_selectIndex + ((_selectFlags & Symmetric) ? _span : 0)];
std::get<0>( entry ) = track;
std::get<1>( entry ) = begin;
std::get<2>( entry ) = end;
}
} // Katana namespace. } // Katana namespace.
INSPECTOR_V_SUPPORT(Katana::TrackCost); INSPECTOR_P_SUPPORT(Katana::TrackCost);
#endif // KATANA_TRACK_COST_H #endif // KATANA_TRACK_COST_H

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@ -31,6 +31,7 @@ namespace Hurricane {
#include "anabatic/AutoSegment.h" #include "anabatic/AutoSegment.h"
#include "katana/Constants.h" #include "katana/Constants.h"
#include "katana/Session.h" #include "katana/Session.h"
#include "katana/TrackCost.h"
#include "katana/TrackElements.h" #include "katana/TrackElements.h"
@ -51,6 +52,7 @@ namespace Katana {
class DataNegociate; class DataNegociate;
class Track; class Track;
class TrackCost; class TrackCost;
class TrackSegment;
typedef map<Segment*,TrackElement*> TrackElementLut; typedef map<Segment*,TrackElement*> TrackElementLut;
@ -60,15 +62,19 @@ namespace Katana {
// ------------------------------------------------------------------- // -------------------------------------------------------------------
// Class : "TrackElement". // Class : "TrackElement".
enum TrackElementFlags { TElemCreated =0x00000001 enum TrackElementFlags { TElemCreated = (1 << 0)
, TElemBlockage =0x00000002 , TElemBlockage = (1 << 1)
, TElemFixed =0x00000004 , TElemFixed = (1 << 2)
, TElemLocked =0x00000008 , TElemWide = (1 << 3)
, TElemRouted =0x00000010 , TElemLocked = (1 << 4)
, TElemSourceDogleg=0x00000020 , TElemRouted = (1 << 5)
, TElemTargetDogleg=0x00000040 , TElemSourceDogleg = (1 << 6)
, TElemRipple =0x00000080 , TElemTargetDogleg = (1 << 7)
, TElemInvalidated =0x00000100 , TElemAlignBottom = (1 << 8)
, TElemAlignCenter = (1 << 9)
, TElemAlignTop = (1 << 10)
, TElemRipple = (1 << 11)
, TElemInvalidated = (1 << 12)
}; };
@ -82,6 +88,7 @@ namespace Katana {
class TrackElement { class TrackElement {
friend class TrackSegment;
public: public:
static SegmentOverlapCostCB* setOverlapCostCB ( SegmentOverlapCostCB* ); static SegmentOverlapCostCB* setOverlapCostCB ( SegmentOverlapCostCB* );
@ -94,6 +101,7 @@ namespace Katana {
virtual bool isFixed () const; virtual bool isFixed () const;
virtual bool isHorizontal () const = 0; virtual bool isHorizontal () const = 0;
virtual bool isVertical () const = 0; virtual bool isVertical () const = 0;
inline bool isWide () const;
virtual bool isLocal () const; virtual bool isLocal () const;
virtual bool isGlobal () const; virtual bool isGlobal () const;
virtual bool isBipoint () const; virtual bool isBipoint () const;
@ -132,6 +140,7 @@ namespace Katana {
virtual const Layer* getLayer () const = 0; virtual const Layer* getLayer () const = 0;
virtual DbU::Unit getPitch () const; virtual DbU::Unit getPitch () const;
virtual DbU::Unit getPPitch () const; virtual DbU::Unit getPPitch () const;
virtual size_t getTrackSpan () const = 0;
inline Track* getTrack () const; inline Track* getTrack () const;
inline size_t getIndex () const; inline size_t getIndex () const;
virtual float getPriority () const = 0; virtual float getPriority () const = 0;
@ -157,6 +166,7 @@ namespace Katana {
virtual TrackElement* getTargetDogleg (); virtual TrackElement* getTargetDogleg ();
virtual TrackElement* getSymmetric (); virtual TrackElement* getSymmetric ();
virtual TrackElements getPerpandiculars (); virtual TrackElements getPerpandiculars ();
virtual void addOverlapCost ( TrackCost& ) const = 0;
// Mutators. // Mutators.
inline void setFlags ( uint32_t ); inline void setFlags ( uint32_t );
inline void unsetFlags ( uint32_t ); inline void unsetFlags ( uint32_t );
@ -176,7 +186,7 @@ namespace Katana {
virtual void invalidate (); virtual void invalidate ();
virtual void revalidate (); virtual void revalidate ();
virtual void updatePPitch (); virtual void updatePPitch ();
virtual void incOverlapCost ( Net*, TrackCost& ) const; virtual void incOverlapCost ( TrackCost& ) const;
virtual void setAxis ( DbU::Unit, uint32_t flags=Anabatic::SegAxisSet ); virtual void setAxis ( DbU::Unit, uint32_t flags=Anabatic::SegAxisSet );
virtual TrackElement* makeDogleg (); virtual TrackElement* makeDogleg ();
inline bool makeDogleg ( Anabatic::GCell* ); inline bool makeDogleg ( Anabatic::GCell* );
@ -221,8 +231,9 @@ namespace Katana {
// Inline functions. // Inline functions.
inline Observer<TrackElement>* TrackElement::getObserver () { return &_observer; } inline Observer<TrackElement>* TrackElement::getObserver () { return &_observer; }
inline void TrackElement::setFlags ( uint32_t flags ) { _flags|= flags; } inline void TrackElement::setFlags ( uint32_t flags ) { _flags |= flags; }
inline void TrackElement::unsetFlags ( uint32_t flags ) { _flags&=~flags; } inline void TrackElement::unsetFlags ( uint32_t flags ) { _flags &= ~flags; }
inline bool TrackElement::isWide () const { return _flags & TElemWide; }
inline bool TrackElement::isCreated () const { return _flags & TElemCreated; } inline bool TrackElement::isCreated () const { return _flags & TElemCreated; }
inline bool TrackElement::isInvalidated () const { return _flags & TElemInvalidated; } inline bool TrackElement::isInvalidated () const { return _flags & TElemInvalidated; }
inline bool TrackElement::isBlockage () const { return _flags & TElemBlockage; } inline bool TrackElement::isBlockage () const { return _flags & TElemBlockage; }

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@ -50,10 +50,12 @@ namespace Katana {
virtual Flags getDirection () const; virtual Flags getDirection () const;
virtual Net* getNet () const; virtual Net* getNet () const;
virtual const Layer* getLayer () const; virtual const Layer* getLayer () const;
virtual size_t getTrackSpan () const;
virtual TrackElement* getNext () const; virtual TrackElement* getNext () const;
virtual TrackElement* getPrevious () const; virtual TrackElement* getPrevious () const;
virtual DbU::Unit getAxis () const; virtual DbU::Unit getAxis () const;
virtual Interval getFreeInterval () const; virtual Interval getFreeInterval () const;
virtual void addOverlapCost ( TrackCost& ) const;
virtual float getPriority () const; virtual float getPriority () const;
virtual void setPriorityLock ( bool ); virtual void setPriorityLock ( bool );
virtual void forcePriority ( float ); virtual void forcePriority ( float );

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@ -0,0 +1,68 @@
// -*- 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 |
// | K i t e - D e t a i l e d R o u t e r |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@asim.lip6.fr |
// | =============================================================== |
// | C++ Header : "./katana/TrackSegmentRegular.h" |
// +-----------------------------------------------------------------+
#ifndef KATANA_TRACK_SEGMENT_REGULAR_H
#define KATANA_TRACK_SEGMENT_REGULAR_H
#include <set>
#include <functional>
#include "katana/TrackSegment.h"
namespace Katana {
using std::string;
using std::map;
using std::set;
using std::binary_function;
using Hurricane::Record;
using Hurricane::Interval;
using Hurricane::DbU;
using Hurricane::Net;
using Hurricane::Layer;
using Anabatic::AutoSegment;
class DataNegociate;
class Track;
class TrackCost;
// -------------------------------------------------------------------
// Class : "TrackSegmentRegular".
class TrackSegmentRegular : public TrackSegment {
friend class TrackSegment;
public:
typedef TrackSegment Super;
protected:
TrackSegmentRegular ( AutoSegment*, Track* ) ;
virtual ~TrackSegmentRegular ();
virtual void _postCreate ();
virtual void _preDestroy ();
virtual size_t getTrackSpan () const;
virtual void addOverlapCost ( TrackCost& ) const;
private:
TrackSegmentRegular ( const TrackSegmentRegular& ) = delete;
TrackSegmentRegular& operator= ( const TrackSegmentRegular& ) = delete;
};
} // Katana namespace.
INSPECTOR_P_SUPPORT(Katana::TrackSegmentRegular);
#endif // KATANA_TRACK_SEGMENT_REGULAR_H

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@ -0,0 +1,70 @@
// -*- 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 |
// | K i t e - D e t a i l e d R o u t e r |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@asim.lip6.fr |
// | =============================================================== |
// | C++ Header : "./katana/TrackSegmentWide.h" |
// +-----------------------------------------------------------------+
#ifndef KATANA_TRACK_SEGMENT_WIDE_H
#define KATANA_TRACK_SEGMENT_WIDE_H
#include <set>
#include <functional>
#include "katana/TrackSegment.h"
namespace Katana {
using std::string;
using std::map;
using std::set;
using std::binary_function;
using Hurricane::Record;
using Hurricane::Interval;
using Hurricane::DbU;
using Hurricane::Net;
using Hurricane::Layer;
using Anabatic::AutoSegment;
class DataNegociate;
class Track;
class TrackCost;
// -------------------------------------------------------------------
// Class : "TrackSegmentWide".
class TrackSegmentWide : public TrackSegment {
friend class TrackSegment;
public:
typedef TrackSegment Super;
protected:
TrackSegmentWide ( AutoSegment*, Track*, size_t trackSpan=0 ) ;
virtual ~TrackSegmentWide ();
virtual void _postCreate ();
virtual void _preDestroy ();
virtual size_t getTrackSpan () const;
virtual void addOverlapCost ( TrackCost& ) const;
private:
TrackSegmentWide ( const TrackSegmentWide& ) = delete;
TrackSegmentWide& operator= ( const TrackSegmentWide& ) = delete;
private:
size_t _trackSpan;
};
} // Katana namespace.
INSPECTOR_P_SUPPORT(Katana::TrackSegmentWide);
#endif // KATANA_TRACK_SEGMENT_WIDE_H