// -*- C++ -*-
//
// This file is part of the Coriolis Software.
// Copyright (c) UPMC 2014-2015, All Rights Reserved
//
// +-----------------------------------------------------------------+
// |                   C O R I O L I S                               |
// |   E t e s i a n  -  A n a l y t i c   P l a c e r               |
// |                                                                 |
// |  Author      :                    Jean-Paul CHAPUT              |
// |  E-mail      :       Jean-Paul.Chaput@asim.lip6.fr              |
// | =============================================================== |
// |  C++ Module  :       "./EtesianEngine.cpp"                      |
// +-----------------------------------------------------------------+



#include <sstream>
#include <fstream>
#include <iomanip>
#include "coloquinte/circuit.hxx"
#include "coloquinte/legalizer.hxx"
#include "vlsisapd/configuration/Configuration.h"
#include "vlsisapd/utilities/Dots.h"
#include "hurricane/DebugSession.h"
#include "hurricane/Bug.h"
#include "hurricane/Error.h"
#include "hurricane/Warning.h"
#include "hurricane/Breakpoint.h"
#include "hurricane/Layer.h"
#include "hurricane/Net.h"
#include "hurricane/Pad.h"
#include "hurricane/Plug.h"
#include "hurricane/Cell.h"
#include "hurricane/Occurrence.h"
#include "hurricane/Instance.h"
#include "hurricane/Vertical.h"
#include "hurricane/Horizontal.h"
#include "hurricane/RoutingPad.h"
#include "hurricane/UpdateSession.h"
#include "hurricane/viewer/CellWidget.h"
#include "hurricane/viewer/CellViewer.h"
#include "katabatic/GCellGrid.h"
#include "katabatic/KatabaticEngine.h"
#include "kite/KiteEngine.h"
#include "crlcore/Utilities.h"
#include "crlcore/Measures.h"
#include "crlcore/AllianceFramework.h"
#include "etesian/EtesianEngine.h"
#include "etesian/FeedCells.h"


namespace {

  using namespace std;
  using namespace Hurricane;
  using coloquinte::int_t;
  using coloquinte::float_t;
  using coloquinte::point;

  // Options for both placers
  unsigned const SteinerModel        = 0x0001;

  // Options for the global placer
  unsigned const ForceUniformDensity = 0x0010;
  unsigned const UpdateLB            = 0x0020;
  unsigned const UpdateUB            = 0x0040;

  // Options for the detailed placer
  unsigned const UpdateDetailed      = 0x0100;
  unsigned const NonConvexOpt        = 0x0200;


  string  extractInstanceName ( const RoutingPad* rp )
  {
    ostringstream name;

    Occurrence occurrence = rp->getOccurrence();

    name << getString(occurrence.getOwnerCell()->getName()) << ':';

    if (not rp->getOccurrence().getPath().getHeadPath().isEmpty())
      name << getString(rp->getOccurrence().getPath().getHeadPath().getName()) << ":";

    name << "I." << getString(rp->getOccurrence().getPath().getTailInstance()->getName());

    return name.str();
  }


  string  extractPinName ( const RoutingPad* rp )
  {
    ostringstream name;

    Occurrence occurrence = rp->getOccurrence();

    name << getString(occurrence.getOwnerCell()->getName()) << ':';

    if (not rp->getOccurrence().getPath().isEmpty())
      name << getString(rp->getOccurrence().getPath().getName()) << ":";

    name << "T." << getString(rp->_getEntityAsComponent()->getNet()->getName());

    return name.str();
  }


  string  extractTerminalName ( const RoutingPad* rp )
  {
    ostringstream name;

    Occurrence occurrence = rp->getOccurrence();

    name << getString(occurrence.getOwnerCell()->getName()) << ':';

    if (not rp->getOccurrence().getPath().isEmpty())
      name << getString(rp->getOccurrence().getPath().getName()) << ":";

    name << "T." << getString(rp->_getEntityAsComponent()->getNet()->getName());

    return name.str();
  }


  Point  extractRpOffset ( const RoutingPad* rp )
  {
    Cell*      masterCell = rp->getOccurrence().getMasterCell();
    Component* component  = rp->_getEntityAsComponent();
    // TODO: verify that it doesn't assume that the orientation is North
    Box        masterBox  = masterCell->getAbutmentBox();

    Point offset;
    if (component) {
      offset.setX( component->getCenter().getX() - masterBox.getXMin() );
      offset.setY( component->getCenter().getY() - masterBox.getYMin() );
    }
    else { // Why?
      offset = masterBox.getCenter();
    }

    return offset;
  }


  Transformation  toTransformation ( point<int_t>  position
                                   , point<bool>  orientation
                                   , Cell*           model
                                   , DbU::Unit       pitch
                                   )
  {
    DbU::Unit tx         = position.x_ * pitch;
    DbU::Unit ty         = position.y_ * pitch;

    Box       cellBox    = model->getAbutmentBox();
    Transformation::Orientation orient = Transformation::Orientation::ID;

    if ( not orientation.x_ and orientation.y_) {
      tx    +=   cellBox.getWidth();
      orient = Transformation::Orientation::MX;
    } else if ( orientation.x_ and not orientation.y_) {
      ty    +=   cellBox.getHeight();
      orient = Transformation::Orientation::MY;
    } else if ( not orientation.x_ and not orientation.y_) {
      tx    +=   cellBox.getWidth();
      ty    +=   cellBox.getHeight();
      orient = Transformation::Orientation::R2;
    }

    return Transformation( tx, ty, orient );
  }

} // Anonymous namespace.


namespace Etesian {

  using std::cout;
  using std::cerr;
  using std::endl;
  using std::setw;
  using std::left;
  using std::string;
  using std::ostream;
  using std::ofstream;
  using std::ostringstream;
  using std::setprecision;
  using std::vector;
  using std::pair;
  using std::make_pair;
  using std::unordered_map;
  using Utilities::Dots;
  using Hurricane::DebugSession;
  using Hurricane::tab;
  using Hurricane::inltrace;
  using Hurricane::ltracein;
  using Hurricane::ltraceout;
  using Hurricane::ForEachIterator;
  using Hurricane::Bug;
  using Hurricane::Error;
  using Hurricane::Warning;
  using Hurricane::Breakpoint;
  using Hurricane::Box;
  using Hurricane::Layer;
  using Hurricane::Cell;
  using Hurricane::Instance;
  using Hurricane::RoutingPad;
  using Hurricane::Net;
  using Hurricane::Occurrence;
  using Hurricane::CellWidget;
  using CRL::ToolEngine;
  using CRL::AllianceFramework;
  using CRL::Catalog;
  using CRL::addMeasure;
  using CRL::Measures;
  using CRL::MeasuresSet;
  using CRL::CatalogExtension;
  using coloquinte::index_t;
  using coloquinte::capacity_t;
  using coloquinte::int_t;
  using coloquinte::float_t;
  using coloquinte::point;
  using coloquinte::box;
  using coloquinte::Movability;
  using coloquinte::temporary_cell;
  using coloquinte::temporary_net;
  using coloquinte::temporary_pin;
  using coloquinte::netlist;
  using coloquinte::placement_t;

  const char* missingEtesian =
    "%s :\n\n"
    "    Cell %s do not have any EtesianEngine (or not yet created).\n";


// -------------------------------------------------------------------
// Class  :  "Etesian::EtesianEngine".

  Name  EtesianEngine::_toolName = "Etesian";


  const Name& EtesianEngine::staticGetName ()
  { return _toolName; }


  EtesianEngine* EtesianEngine::get ( const Cell* cell )
  { return static_cast<EtesianEngine*>(ToolEngine::get(cell,staticGetName())); }


  EtesianEngine::EtesianEngine ( Cell* cell )
    : ToolEngine    (cell)
    , _configuration(new Configuration())
    , _placed       (false)
    , _flatDesign   (false)
    , _timer        ()
    , _surface      ()
    , _circuit      ()
    , _placementLB  ()
    , _placementUB  ()
    , _cellsToIds   ()
    , _idsToInsts   ()
    , _viewer       (NULL)
    , _feedCells    (this)
  {
  }


  void  EtesianEngine::_postCreate ()
  {
  // Ugly: Name based detection of ISPD benchmarks.
    if (getString(getCell()->getName()).substr(0,7) == "bigblue") {
      cmess2 << "  o  ISPD benchmark <" << getCell()->getName()
             << ">, no feed cells will be added." << endl;
    } else {
    // Ugly: Direct uses of Alliance Framework.
    // Must change toward something in the settings.
      _feedCells.useFeed( AllianceFramework::get()->getCell("tie_x0"   ,Catalog::State::Views) );
      _feedCells.useFeed( AllianceFramework::get()->getCell("rowend_x0",Catalog::State::Views) );
    }
  }


  EtesianEngine* EtesianEngine::create ( Cell* cell )
  {
    EtesianEngine* etesian = new EtesianEngine ( cell );

    etesian->_postCreate();
    return etesian;
  }


  void  EtesianEngine::_preDestroy ()
  {
    ltrace(90) << "EtesianEngine::_preDestroy()" << endl;
    ltracein(90);

    cmess1 << "  o  Deleting ToolEngine<" << getName() << "> from Cell <"
           << getCell()->getName() << ">" << endl;

    ltraceout(90);
  }


  EtesianEngine::~EtesianEngine ()
  {
    delete _configuration;
  }


  const Name& EtesianEngine::getName () const
  { return _toolName; }


  const Configuration* EtesianEngine::getConfiguration () const
  { return _configuration; }


  Configuration* EtesianEngine::getConfiguration ()
  { return _configuration; }


  void  EtesianEngine::startMeasures ()
  {
    _timer.resetIncrease();
    _timer.start();
  }


  void  EtesianEngine::stopMeasures ()
  { _timer.stop(); }


  void  EtesianEngine::printMeasures ( string tag ) const
  {
    ostringstream result;

    result <<  Timer::getStringTime(_timer.getCombTime()) << ", " 
           << Timer::getStringMemory(_timer.getIncrease());
    cmess1 << ::Dots::asString( "     - Done in", result.str() ) << endl;

    result.str("");
    result << _timer.getCombTime()
           << "s, +" << (_timer.getIncrease()>>10) <<  "Kb/"
           << (_timer.getMemorySize()>>10) << "Kb";
    cmess2 << ::Dots::asString( "     - Raw measurements", result.str() ) << endl;
  }


  void  EtesianEngine::setDefaultAb ()
  {
    double spaceMargin = getSpaceMargin();
    double aspectRatio = getAspectRatio();
    size_t instanceNb  = 0;
    double cellLength  = 0;

    vector<Occurrence>  feedOccurrences;
    forEach ( Occurrence, ioccurrence, getCell()->getLeafInstanceOccurrences() )
    {
      Instance* instance     = static_cast<Instance*>((*ioccurrence).getEntity());
      Cell*     masterCell   = instance->getMasterCell();
      string    instanceName = (*ioccurrence).getCompactString();

      if (CatalogExtension::isFeed(masterCell)) {
        cerr << Warning( "Found a feedcell %s in an unplaced design, removing."
                       , instanceName.c_str()
                       ) << endl;
        feedOccurrences.push_back( *ioccurrence );
        continue;
      }

      cellLength += DbU::toLambda( masterCell->getAbutmentBox().getWidth() );
      instanceNb += 1;
    }

    double gcellLength = cellLength*(1.0+spaceMargin) / DbU::toLambda( getSliceHeight() );
    double rows        = std::ceil( sqrt( gcellLength/aspectRatio ) );
    double columns     = std::ceil( gcellLength / rows );

    cmess1 << "  o  Creating abutment box (margin:" << (spaceMargin*100.0)
           << "% aspect ratio:" << (aspectRatio*100.0)
           << "% g-length:" << (cellLength/DbU::toLambda(getSliceHeight()))
           << ")" << endl;
    cmess1 << "     - GCell grid: [" << (int)columns << "x" << (int)rows << "]" << endl;

    UpdateSession::open();
    for ( auto ioccurrence : feedOccurrences ) {
      static_cast<Instance*>(ioccurrence.getEntity())->destroy();
    }

    getCell()->setAbutmentBox( Box( DbU::fromLambda(0)
                                  , DbU::fromLambda(0)
                                  , columns*getSliceHeight()
                                  , rows   *getSliceHeight()
                                  ) );
    UpdateSession::close();
    if (_viewer) _viewer->getCellWidget()->fitToContents();
  }


  void  EtesianEngine::resetPlacement ()
  {
  //cerr << "EtesianEngine::resetPlacement()" << endl;

    if (not _placed) return;
    _flatDesign = true;

    Dots  dots ( cmess2, "     ", 80, 1000 );

    cmess1 << "  o  Erasing previous placement of <" << getCell()->getName() << ">" << endl;

    UpdateSession::open();
    vector<Occurrence>  feedOccurrences;
    forEach ( Occurrence, ioccurrence, getCell()->getLeafInstanceOccurrences() )
    {
      dots.dot();

      if ( _flatDesign and not (*ioccurrence).getPath().getTailPath().isEmpty())
        _flatDesign = true;

      Instance* instance     = static_cast<Instance*>((*ioccurrence).getEntity());
      Cell*     masterCell   = instance->getMasterCell();
      string    instanceName = (*ioccurrence).getCompactString();

      if (CatalogExtension::isFeed(masterCell)) {
        feedOccurrences.push_back( *ioccurrence );
      }
    }

    for ( auto ioccurrence : feedOccurrences ) {
      cerr << "  Destroy: " << ioccurrence.getCompactString() << endl;
      Instance* instance     = static_cast<Instance*>(ioccurrence.getEntity());
      instance->destroy();
    }
    UpdateSession::close();

    dots.finish( Dots::Reset );

    if (_viewer) _viewer->getCellWidget()->refresh();

    _placed = false;
  }


  void  EtesianEngine::toColoquinte ()
  {
    cmess1 << "  o  Converting <" << getCell()->getName() << "> into Coloquinte." << endl;

    resetPlacement();

    Dots               dots  ( cmess2, "       ", 80, 1000 );
    AllianceFramework* af    = AllianceFramework::get();
    DbU::Unit          pitch = getPitch();

    cmess1 << "     - Building RoutingPads (transhierarchical) ..." << endl;
    getCell()->flattenNets( Cell::BuildRings|Cell::NoClockFlatten );

  // Coloquinte circuit description data-structures.
    size_t                  instancesNb = getCell()->getLeafInstanceOccurrences().getSize();
    vector<Transformation>  idsToTransf ( instancesNb );
    vector<temporary_cell>  instances   ( instancesNb );
    vector< point<int_t> >  positions   ( instancesNb );
    vector< point<bool> >   orientations( instancesNb, point<bool>(true, true) );

    cmess1 << "     - Converting " << instancesNb << " instances" << endl;
    cout.flush();

    Box topAb = getCell()->getAbutmentBox();

    UpdateSession::open();
    forEach ( Occurrence, ioccurrence, getCell()->getNonLeafInstanceOccurrences() )
    {
      Instance* instance     = static_cast<Instance*>((*ioccurrence).getEntity());
      Cell*     masterCell   = instance->getMasterCell();

      if (masterCell->getAbutmentBox().isEmpty()) {
      // Have to check here if the model is fully placed or not.
        masterCell->setAbutmentBox( topAb );
        instance->setTransformation( Transformation() ); // (0,0,ID).
        instance->setPlacementStatus( Instance::PlacementStatus::PLACED );
      }
    }
    UpdateSession::close();

    index_t instanceId = 0;
    forEach ( Occurrence, ioccurrence, getCell()->getLeafInstanceOccurrences() )
    {
      Instance* instance     = static_cast<Instance*>((*ioccurrence).getEntity());
      Cell*     masterCell   = instance->getMasterCell();
      string    instanceName = (*ioccurrence).getCompactString();
    // Remove the enclosing brackets...
      instanceName.erase( 0, 1 );
      instanceName.erase( instanceName.size()-1 );

      if (CatalogExtension::isFeed(masterCell)) {
        cerr << Warning("Feed instance found and skipped.") << endl;
        continue;
      }

      Box instanceAb = masterCell->getAbutmentBox();

      Transformation instanceTransf = instance->getTransformation();
      (*ioccurrence).getPath().getTransformation().applyOn( instanceTransf );
      instanceTransf.applyOn( instanceAb );

      // Upper rounded
      int_t xsize = (instanceAb.getWidth () + pitch -1) / pitch;
      int_t ysize = (instanceAb.getHeight() + pitch -1) / pitch;
      // Lower rounded
      int_t xpos  = instanceAb.getXMin() / pitch;
      int_t ypos  = instanceAb.getYMin() / pitch;

      instances[instanceId].size       = point<int_t>( xsize, ysize );
      instances[instanceId].list_index = instanceId;
      instances[instanceId].area       = static_cast<capacity_t>(xsize) * static_cast<capacity_t>(ysize);
      positions[instanceId]            = point<int_t>( xpos, ypos );

      if ( not instance->isFixed() and instance->isTerminal() ) {
        instances[instanceId].attributes = coloquinte::XMovable
                                          |coloquinte::YMovable
                                          |coloquinte::XFlippable
                                          |coloquinte::YFlippable;
      } else {
        instances[instanceId].attributes = 0;
      }

      _cellsToIds.insert( make_pair(instanceName,instanceId) );
      _idsToInsts.push_back( instance );
      ++instanceId;
      dots.dot();
    }
    dots.finish( Dots::Reset|Dots::FirstDot );

    size_t netsNb = getCell()->getNets().getSize();
    cmess1 << "     - Converting " << netsNb << " nets" << endl;

    vector<temporary_net>  nets ( netsNb );
    vector<temporary_pin>  pins;

    unsigned int netId = 0;
    forEach ( Net*, inet, getCell()->getNets() )
    {
      const char* excludedType = NULL;
      if ((*inet)->getType() == Net::Type::POWER ) excludedType = "POWER";
      if ((*inet)->getType() == Net::Type::GROUND) excludedType = "GROUND";
      if ((*inet)->getType() == Net::Type::CLOCK ) excludedType = "CLOCK";
      if (excludedType) {
        cparanoid << Warning( "%s is not a routable net (%s,excluded)."
                            , getString(*inet).c_str(), excludedType ) << endl;
        continue;
      }
      if (af->isBLOCKAGE((*inet)->getName())) continue;

      dots.dot();

      nets[netId] = temporary_net( netId, 1 );

      forEach ( RoutingPad*, irp, (*inet)->getRoutingPads() ) {
        string insName = extractInstanceName( *irp );
        Point  offset  = extractRpOffset    ( *irp );

        int_t xpin    = offset.getX() / pitch;
        int_t ypin    = offset.getY() / pitch;

        auto  iid = _cellsToIds.find( insName );
        if (iid == _cellsToIds.end() ) {
          cerr << Error( "Unable to lookup instance <%s>.", insName.c_str() ) << endl;
        } else {
          pins.push_back( temporary_pin( point<int_t>(xpin,ypin), (*iid).second, netId ) );
        }
      }

      netId++;
    }
    dots.finish( Dots::Reset );

    _surface = box<int_t>( (int_t)(getCell()->getAbutmentBox().getXMin() / pitch)
                         , (int_t)(getCell()->getAbutmentBox().getXMax() / pitch)
                         , (int_t)(getCell()->getAbutmentBox().getYMin() / pitch)
                         , (int_t)(getCell()->getAbutmentBox().getYMax() / pitch)
                         );
    _circuit = netlist( instances, nets, pins );
    _circuit.selfcheck();
    _placementLB.positions_    = positions;
    _placementLB.orientations_ = orientations;
    _placementUB = _placementLB;
  //cerr << "Coloquinte cell height: " << _circuit.get_cell(0).size.y_ << endl;

  }

  void  EtesianEngine::preplace (){
    using namespace coloquinte::gp;

    // Perform a very quick legalization pass
    cmess2 << "  o  Simple legalization." << endl;
    auto first_legalizer = region_distribution::uniform_density_distribution(_surface, _circuit, _placementLB);
    first_legalizer.selfcheck();
    get_rough_legalization( _circuit, _placementUB, first_legalizer);

    _placementLB = _placementUB;

    // Early topology-independent solution with a star model + negligible pulling forces to avoid dumb solutions
    // Spreads well to help subsequent optimization passes
    cmess2 << "  o  Star (*) Optimization." << endl;
    auto solv = get_star_linear_system( _circuit, _placementLB, 1.0, 0, 10) // Limit the number of pins: don't want big awful nets with high weight
              + get_pulling_forces( _circuit, _placementUB, 1000000.0);
    solve_linear_system( _circuit, _placementLB, solv, 200 );
    _progressReport2("     [--]" );
  }

  void  EtesianEngine::roughLegalize( float minDisruption, unsigned options ){
    using namespace coloquinte::gp;
    // Create a legalizer and bipartition it until we have sufficient precision
    auto legalizer = (options & ForceUniformDensity) != 0 ?
        region_distribution::uniform_density_distribution (_surface, _circuit, _placementLB, _densityLimits)
      : region_distribution::full_density_distribution    (_surface, _circuit, _placementLB, _densityLimits);
    while(legalizer.region_dimensions().x_ > 2*legalizer.region_dimensions().y_)
      legalizer.x_bipartition();
    while(2*legalizer.region_dimensions().x_ < legalizer.region_dimensions().y_)
      legalizer.y_bipartition();
    while( std::max(legalizer.region_dimensions().x_, legalizer.region_dimensions().y_)*4 > minDisruption ) {
      legalizer.x_bipartition();
      legalizer.y_bipartition();
      legalizer.redo_line_partitions();
      legalizer.redo_diagonal_bipartitions();
      legalizer.redo_line_partitions();
      legalizer.redo_diagonal_bipartitions();
      legalizer.selfcheck();
    }
    // Keep the orientation between LB and UB
    _placementUB = _placementLB;
    // Update UB
    get_rough_legalization( _circuit, _placementUB, legalizer );
  }

  void  EtesianEngine::feedRoutingBack(){
    using namespace Katabatic;
    using namespace Kite;
    /*
     * If routing information is present, use it to
     *       * artificially expand the areas given to coloquinte 
     *       * add placement dentity constraints
     */
    DbU::Unit pitch = getPitch();
    const float densityThreshold = 0.9;

    KiteEngine* routingEngine = KiteEngine::get( getCell() );
    if(routingEngine == NULL)
      throw Error("No routing information was found when performing routing-driven placement\n");

    GCellGrid * grid = routingEngine->getGCellGrid();
    // Get information about the GCells
    // Create different densities

    _densityLimits.clear();
    forEach(GCell*, gc, grid->getGCells()){
        float density = (*gc)->getMaxHVDensity();
        if(density >= densityThreshold){
        
            coloquinte::density_limit cur;
            cur.box_ = coloquinte::box<int_t>(
                (*gc)->getX()    / pitch,
                (*gc)->getXMax() / pitch,
                (*gc)->getY()    / pitch,
                (*gc)->getYMax() / pitch
            );
            cur.density_ = densityThreshold/density;
            _densityLimits.push_back(cur);
        }
    }

    // TODO: Careful to keep the densities high enough
    // Will just fail later if the densities are too high

    // Expand areas: TODO
  }

  void  EtesianEngine::globalPlace ( float initPenalty, float minDisruption, float targetImprovement, float minInc, float maxInc, unsigned options ){
    using namespace coloquinte::gp;

    float_t penaltyIncrease = minInc;
    float_t linearDisruption  = get_mean_linear_disruption(_circuit, _placementLB, _placementUB);
    float_t pullingForce = initPenalty;
    float_t upperWL = static_cast<float_t>(get_HPWL_wirelength(_circuit, _placementUB)),
            lowerWL = static_cast<float_t>(get_HPWL_wirelength(_circuit, _placementLB));
    float_t prevOptRatio = lowerWL / upperWL;

    index_t i=0;
    do{
      roughLegalize(minDisruption, options);
      if(options & UpdateUB)
        _updatePlacement( _placementUB );

      ostringstream label;
      label.str("");
      label  << "     [" << setw(2) << setfill('0') << i << "] Bipart.";
      _progressReport1(label.str() );

      upperWL = static_cast<float_t>(get_HPWL_wirelength(_circuit, _placementUB));
    //float_t legRatio = lowerWL / upperWL;

      // Get the system to optimize (tolerance, maximum and minimum pin counts)
      // and the pulling forces (threshold distance)
      auto opt_problem = (options & SteinerModel) ?
        get_RSMT_linear_system  ( _circuit, _placementLB, minDisruption, 2, 100000 ) 
      : get_HPWLF_linear_system ( _circuit, _placementLB, minDisruption, 2, 100000 ); 
      auto solv = opt_problem
                + get_linear_pulling_forces( _circuit, _placementUB, _placementLB, pullingForce, 2.0f * linearDisruption);
      solve_linear_system( _circuit, _placementLB, solv, 200 ); // 200 iterations
      _progressReport2("          Linear." );

      if(options & UpdateLB)
        _updatePlacement( _placementLB );

      // Optimize orientation sometimes
      if (i%5 == 0) {
          optimize_exact_orientations( _circuit, _placementLB );
          _progressReport2("          Orient." );
      }

      lowerWL = static_cast<float_t>(get_HPWL_wirelength(_circuit, _placementLB));
      float_t optRatio = lowerWL / upperWL;

     /*
      * Schedule the penalty during global placement to achieve uniform improvement
      *
      * Currently, the metric considered is the ratio optimized HPWL/legalized HPWL
      * Other ones, like the disruption itself, may be considered
      */
      penaltyIncrease = std::min(maxInc, std::max(minInc,
              penaltyIncrease * std::sqrt( targetImprovement / (optRatio - prevOptRatio) )
          ) );
      cparanoid << "                   L/U ratio: " << 100*optRatio << "% (previous: " << 100*prevOptRatio << "%)\n"
                << "                   Pulling force: " <<  pullingForce << " Increase: " << penaltyIncrease << endl;

      pullingForce += penaltyIncrease;
      prevOptRatio = optRatio;

      linearDisruption  = get_mean_linear_disruption(_circuit, _placementLB, _placementUB);
      ++i;
      // First way to exit the loop: UB and LB difference is <10%
      // Second way to exit the loop: the legalization is close enough to the previous result
    }while(linearDisruption > minDisruption and prevOptRatio <= 0.9);
    _updatePlacement( _placementUB );
  }

  void  EtesianEngine::detailedPlace    ( int iterations, int effort, unsigned options ){
    using namespace coloquinte::gp;
    using namespace coloquinte::dp;

    int_t sliceHeight = getSliceHeight() / getPitch();
    roughLegalize(sliceHeight, options);

    for ( int i=0; i<iterations; ++i ){
        ostringstream label;
        label.str("");
        label  << "     [" << setw(2) << setfill('0') << i << "]";

        optimize_x_orientations( _circuit, _placementUB ); // Don't disrupt VDD/VSS connections in a row
        _progressReport1(label.str()+" Oriented ......." );
        if(options & UpdateDetailed)
          _updatePlacement( _placementUB );

        auto legalizer = legalize( _circuit, _placementUB, _surface, sliceHeight );
        coloquinte::dp::get_result( _circuit, legalizer, _placementUB );
        _progressReport1("          Legalized ......" );
        if(options & UpdateDetailed)
          _updatePlacement( _placementUB );

        row_compatible_orientation( _circuit, legalizer, true );
        swaps_global_HPWL( _circuit, legalizer, 3, 4 );
        coloquinte::dp::get_result( _circuit, legalizer, _placementUB );
        _progressReport1("          Global Swaps ..." );
        if(options & UpdateDetailed)
          _updatePlacement( _placementUB );

        if(options & SteinerModel)
          OSRP_noncvx_RSMT( _circuit, legalizer );
        else
          OSRP_convex_HPWL( _circuit, legalizer );
        coloquinte::dp::get_result( _circuit, legalizer, _placementUB );
        _progressReport1("          Row Optimization" );
        if(options & UpdateDetailed)
          _updatePlacement( _placementUB );

        if(options & SteinerModel)
          swaps_row_noncvx_RSMT( _circuit, legalizer, effort+2 );
        else
          swaps_row_convex_HPWL( _circuit, legalizer, effort+2 );
        coloquinte::dp::get_result( _circuit, legalizer, _placementUB );
        _progressReport1("          Local Swaps ...." );
        if(options & UpdateDetailed)
          _updatePlacement( _placementUB );

        if (i == iterations-1) {
          //swaps_row_convex_RSMT( _circuit, legalizer, 4 );
          row_compatible_orientation( _circuit, legalizer, true );
          coloquinte::dp::get_result( _circuit, legalizer, _placementUB );
          verify_placement_legality( _circuit, _placementUB, _surface );
          _progressReport1("          Final Legalize ." );
        }
    }
    _placementLB = _placementUB; // In case we run other passes
    _updatePlacement( _placementUB );
  }

  void  EtesianEngine::place ()
  {
    getCell()->uniquify();

    getConfiguration()->print( getCell() );
    if (getCell()->getAbutmentBox().isEmpty()) setDefaultAb();

    findYSpin();
    toColoquinte();

    Effort        placementEffort = getPlaceEffort();
    GraphicUpdate placementUpdate = getUpdateConf();
    Density       densityConf     = getSpreadingConf();
    bool          routingDriven   = getRoutingDriven();

    startMeasures();
    double         sliceHeight = getSliceHeight() / getPitch();

    cmess1 << "  o  Running Coloquinte." << endl;
    cmess2 << "     - Computing initial placement..." << endl;
    cmess2 << right;

    preplace();


    float_t minPenaltyIncrease, maxPenaltyIncrease, targetImprovement;
    int detailedIterations, detailedEffort;
    unsigned globalOptions=0, detailedOptions=0;

    if(placementUpdate == UpdateAll){
      globalOptions |= (UpdateUB | UpdateLB);
      detailedOptions |= UpdateDetailed;
    }
    else if(placementUpdate == LowerBound){
      globalOptions |= UpdateLB;
    }

    if(densityConf == ForceUniform)
      globalOptions |= ForceUniformDensity;

    if(placementEffort == Fast){
        minPenaltyIncrease = 0.005f;
        maxPenaltyIncrease = 0.08f;
        targetImprovement  = 0.05f; // 5/100 per iteration
        detailedIterations = 1;
        detailedEffort     = 0;
    }
    else if(placementEffort == Standard){
        minPenaltyIncrease = 0.001f;
        maxPenaltyIncrease = 0.04f;
        targetImprovement  = 0.02f; // 2/100 per iteration
        detailedIterations = 2;
        detailedEffort     = 1;
    }
    else if(placementEffort == High){
        minPenaltyIncrease = 0.0005f;
        maxPenaltyIncrease = 0.02f;
        targetImprovement  = 0.01f; // 1/100 per iteration
        detailedIterations = 4;
        detailedEffort     = 2;
    }
    else{
        minPenaltyIncrease = 0.0002f;
        maxPenaltyIncrease = 0.01f;
        targetImprovement  = 0.005f; // 5/1000 per iteration
        detailedIterations = 7;
        detailedEffort     = 3;
    }

    cmess1 << "  o  Global placement." << endl;
    globalPlace(minPenaltyIncrease, sliceHeight, targetImprovement, minPenaltyIncrease, maxPenaltyIncrease, globalOptions);

    cmess1 << "  o  Detailed Placement." << endl;
    detailedPlace(detailedIterations, detailedEffort, detailedOptions);

    if(routingDriven){
        bool success = false;
        int routingDrivenIteration = 0;
        using namespace Kite;
        while(true){
            cmess2 << "Routing-driven placement iteration " << routingDrivenIteration << endl;
            KiteEngine* kiteE = KiteEngine::create(_cell);
            kiteE->runGlobalRouter(0);
            kiteE->loadGlobalRouting(Katabatic::EngineLoadGrByNet);
            kiteE->balanceGlobalDensity();
            kiteE->layerAssign(Katabatic::EngineNoNetLayerAssign);
            kiteE->runNegociate();
            success = kiteE->getToolSuccess();
            feedRoutingBack();
            kiteE->destroy();
            KiteEngine::wipeOutRouting(_cell);
            if(success){
                cmess2 << "The design is routable; exiting" << endl;
                break;
            }
            detailedPlace(detailedIterations, detailedEffort, detailedOptions);
        }
    }

    cmess2 << "  o  Adding feed cells." << endl;
    addFeeds();

    cmess1 << "  o  Placement finished." << endl;
    stopMeasures();
    printMeasures( "total" );
    cmess1 << ::Dots::asString
      ( "     - HPWL", DbU::getValueString( (DbU::Unit)coloquinte::gp::get_HPWL_wirelength(_circuit,_placementUB )*getPitch() ) ) << endl;
    cmess1 << ::Dots::asString
      ( "     - RMST", DbU::getValueString( (DbU::Unit)coloquinte::gp::get_RSMT_wirelength(_circuit,_placementUB )*getPitch() ) ) << endl;

    _placed = true;

    getCell()->setFlags( Cell::Placed );
  }


  void  EtesianEngine::_progressReport1 ( string label ) const
  {
    size_t w      = label.size();
    string indent ( w, ' ' );
    if (not w) {
      label  = string( 5, ' ' );
      indent = label;
    }

    ostringstream elapsed;
    //elapsed << "  dTime:" << setw(5) << _timer.getCombTime() << "s ";

    cmess2 << label << elapsed.str()
           << " HPWL:" << setw(11) << coloquinte::gp::get_HPWL_wirelength( _circuit, _placementUB )
           << " RMST:" << setw(11) << coloquinte::gp::get_RSMT_wirelength( _circuit, _placementUB )
           << endl;
    cparanoid << indent
           <<  "  Linear Disrupt.:" << setw(11) << coloquinte::gp::get_mean_linear_disruption   ( _circuit, _placementLB, _placementUB )
           <<   " Quad Disrupt.:"   << setw(11) << coloquinte::gp::get_mean_quadratic_disruption( _circuit, _placementLB, _placementUB )
           << endl;
  }


  void  EtesianEngine::_progressReport2 ( string label ) const
  {
    size_t w      = label.size();
    string indent ( w, ' ' );
    if (not w) {
      label  = string( 5, ' ' );
      indent = label;
    }

    ostringstream elapsed;
    //elapsed << "  dTime:" << setw(5) << _timer.getCombTime() << "s ";

    cmess2 << label << elapsed.str()
           << " HPWL:" << setw(11) << coloquinte::gp::get_HPWL_wirelength( _circuit, _placementLB )
           << " RMST:" << setw(11) << coloquinte::gp::get_RSMT_wirelength( _circuit, _placementLB )
           << endl;
  }


  void  EtesianEngine::_updatePlacement ( const coloquinte::placement_t& placement )
  {
    UpdateSession::open();

    forEach ( Occurrence, ioccurrence, getCell()->getLeafInstanceOccurrences() )
    {
      Point     instancePosition;
      Instance* instance        = static_cast<Instance*>((*ioccurrence).getEntity());
      string    instanceName    = (*ioccurrence).getCompactString();
    // Remove the enclosing brackets...
      instanceName.erase( 0, 1 );
      instanceName.erase( instanceName.size()-1 );

      auto  iid = _cellsToIds.find( instanceName );
      if (iid == _cellsToIds.end() ) {
        cerr << Error( "Unable to lookup instance <%s>.", instanceName.c_str() ) << endl;
      } else {
        if (instance->getPlacementStatus() == Instance::PlacementStatus::FIXED)
          continue;

        point<int_t>   position = placement.positions_[(*iid).second];
        Transformation trans    = toTransformation( position
                                                  , placement.orientations_[(*iid).second]
                                                  , instance->getMasterCell()
                                                  , getPitch()
                                                  );
      //cerr << "Setting <" << instanceName << " @" << instancePosition << endl;

      // This is temporary as it's not trans-hierarchic: we ignore the posutions
      // of all the intermediary instances.
        instance->setTransformation( trans );
        instance->setPlacementStatus( Instance::PlacementStatus::PLACED );
      }
    }

    UpdateSession::close();

    if (_viewer) _viewer->getCellWidget()->refresh();
  }


  string  EtesianEngine::_getTypeName () const
  { return "Etesian::EtesianEngine"; }


  string  EtesianEngine::_getString () const
  {
    ostringstream  os;
    os << "<" << "EtesianEngine " << getCell()->getName () << ">";
    return os.str();
  }


  Record* EtesianEngine::_getRecord () const
  {
    Record* record = ToolEngine::_getRecord ();
                                     
    if (record) {
      record->add( getSlot( "_configuration",  _configuration ) );
    }
    return record;
  }


} // Etesian namespace.