coriolis/bora/src/RHVSlicingNode.cpp

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Analog integration part II. Analog place & route (slicing tree). * Change: In Hurricane::CellWidget, set the minimal size to 350 pixels to fit my normal DPI secondary screen... * Change: In Hurricane::Error(), reactivate the backtrace generation by default. Seriously slow down the program each time an Error is to be constructed. * Bug: In Analog::Device::preCreate(), check for NULL Technology before attempting to use it. * Change: In Hurricane/Analog, remove all '*Arguments*' classes and their Python interface. It was an obsoleted way of passing devices parameters to the Python layout generators (located in Oroshi). Now we just get them straight from the Device with the getParamter() method. * Change: In CRL::System CTOR, add Python pathes for Oroshi & Karakaze. * Change: In Oroshi/Python/WIP_*.py layout generator scripts, remove all uses of the "Arguments". Directly access the parameters through the device itself. Make the checkCoherency() with identical arguments as of layout(). * New: Bora tool that performs analog place & route. Based on a slicing tree representation. It is the thesis work of Eric Lao. Code beautyfication and some programming cleanup. * New: Karakaze tool, provide the Python base class AnalogDesign used to build an analog design. Create/configure devices and assemble them in a slicing tree. * Change: In Unicorn/cgt.py, display the stack trace in case of an ImportError exception as well as for other exceptions. Add Bora to the set for included tool engines.
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// -*- C++ -*-
//
// This file is part of the Coriolis Software.
// Copyright (c) UPMC 2015-2018, All Rights Reserved
//
// +-----------------------------------------------------------------+
// | C O R I O L I S |
// | B o r a - A n a l o g S l i c i n g T r e e |
// | |
// | Authors : Eric LAO |
// | E-mail : Jean-Paul.Chaput@lip6.fr |
// | =============================================================== |
// | C++ Module : "./bora/RHVSlicingNode.cpp" |
// +-----------------------------------------------------------------+
#include "hurricane/Error.h"
#include "hurricane/Warning.h"
#include "hurricane/Box.h"
#include "hurricane/Horizontal.h"
#include "hurricane/Vertical.h"
#include "hurricane/Transformation.h"
#include "hurricane/UpdateSession.h"
#include "bora/ChannelRouting.h"
#include "bora/RHVSlicingNode.h"
namespace Bora {
using namespace std;
using Hurricane::Error;
using Hurricane::Warning;
using Hurricane::Box;
using Hurricane::Component;
using Hurricane::Horizontal;
using Hurricane::Vertical;
using Hurricane::UpdateSession;
using Hurricane::Transformation;
// -------------------------------------------------------------------
// Class : "Bora::RHVSlicingNode".
int RHVSlicingNode::_count = 0;
int RHVSlicingNode::_countAll = 0;
RHVSlicingNode::RHVSlicingNode()
: SlicingNode( RoutingSNode, NodeSets::create(), UnknownAlignment, NULL )
, _railInstance (NULL)
, _minHeight (0)
, _minWidth (0)
, _wireOccupation(NULL)
{
++_count;
setPreset (Preset);
setSet (Set );
setOverCell(OverCell);
_wireOccupation = ChannelRouting::create();
}
RHVSlicingNode::~RHVSlicingNode ()
{ --_count; }
void RHVSlicingNode::print () const
{
cerr << "- Print from Slicing Node - " << endl;
if (_railInstance) cerr << "RailInstance: " << _railInstance << endl;
SlicingNode::print();
}
void RHVSlicingNode::_setGlobalSize ( DbU::Unit height, DbU::Unit width )
{ }
void RHVSlicingNode::preDestroy ()
{
if(_wireOccupation) _wireOccupation->destroy();
SlicingNode::preDestroy();
}
void RHVSlicingNode::destroy ()
{
RHVSlicingNode::preDestroy();
delete this;
}
void RHVSlicingNode::preRecursiveDestroy ()
{
SlicingNode::preRecursiveDestroy();
}
void RHVSlicingNode::recursiveDestroy ()
{
RHVSlicingNode::preRecursiveDestroy();
delete this;
}
void RHVSlicingNode::resetSize ()
{
_boxSet->setHeight( _minHeight );
_boxSet->setWidth ( _minWidth );
}
bool RHVSlicingNode::isSame ( SlicingNode* node, unsigned int flags ) const
{
return ( (getHeight() == node->getHeight())
and (getWidth () == node->getWidth ()) );
}
bool RHVSlicingNode::isSymmetric ( SlicingNode* node, unsigned int symmetryType, unsigned int flags ) const
{
return ( (getHeight() == node->getHeight())
and (getWidth () == node->getWidth ()) );
}
void RHVSlicingNode::setRailInstance ( Hurricane::Instance* instance )
{ _railInstance = instance; }
void RHVSlicingNode::_place ( DbU::Unit x, DbU::Unit y, bool replace )
{
SlicingNode::_place( x, y, replace );
if (_railInstance) {
Net* supplyNet = NULL;
size_t count = 0;
for ( Net* net : _railInstance->getMasterCell()->getNets())
{ supplyNet = net; ++count; }
if (count != 1)
cerr << Error( "RHVSlicingNode::_place(DbU::Unit,DbU::Unit,bool): Several Nets in Rail Instance Cell." ) << endl;
Component* wire = NULL;
count = 0;
for ( Component* component : supplyNet->getComponents() )
{ wire = component; ++count; }
if (count != 1)
cerr << Error( "RHVSlicingNode::_place(DbU::Unitx,DbU::Unit,bool): Several Components in Rail Instance Cell." ) << endl;
Horizontal* h = dynamic_cast<Horizontal*>(wire);
Vertical* v = dynamic_cast<Vertical*> (wire);
UpdateSession::open();
if (h) {
h->setDxSource( 0 );
h->setDxTarget( getRootWidth() );
_railInstance->getMasterCell()->setAbutmentBox( Box( 0, 0, getRootWidth(), getHeight() ) );
_railInstance->setTransformation( Transformation( _cell->getAbutmentBox().getXMin(), getY() ) );
} else if (v) {
v->setDySource( 0 );
v->setDyTarget( getRootHeight() );
_railInstance->getMasterCell()->setAbutmentBox( Box( 0, 0, getWidth(), getRootHeight() ) );
_railInstance->setTransformation(Transformation( getX(), _cell->getAbutmentBox().getYMin() ) );
} else
cerr << Error( "RHVSlicingNode::_place(DbU::Unit,DbU::Unit,bool): Unknown segment type." ) << endl;
_railInstance->setPlacementStatus( Instance::PlacementStatus::PLACED );
UpdateSession::close();
}
}
void RHVSlicingNode::addWireOccupation ( DbU::Unit min, DbU::Unit max, Net* net )
{ if ( _wireOccupation and (min != max) ) _wireOccupation->insertChannel(min, max, net); }
Analog integration part II. Analog place & route (slicing tree). * Change: In Hurricane::CellWidget, set the minimal size to 350 pixels to fit my normal DPI secondary screen... * Change: In Hurricane::Error(), reactivate the backtrace generation by default. Seriously slow down the program each time an Error is to be constructed. * Bug: In Analog::Device::preCreate(), check for NULL Technology before attempting to use it. * Change: In Hurricane/Analog, remove all '*Arguments*' classes and their Python interface. It was an obsoleted way of passing devices parameters to the Python layout generators (located in Oroshi). Now we just get them straight from the Device with the getParamter() method. * Change: In CRL::System CTOR, add Python pathes for Oroshi & Karakaze. * Change: In Oroshi/Python/WIP_*.py layout generator scripts, remove all uses of the "Arguments". Directly access the parameters through the device itself. Make the checkCoherency() with identical arguments as of layout(). * New: Bora tool that performs analog place & route. Based on a slicing tree representation. It is the thesis work of Eric Lao. Code beautyfication and some programming cleanup. * New: Karakaze tool, provide the Python base class AnalogDesign used to build an analog design. Create/configure devices and assemble them in a slicing tree. * Change: In Unicorn/cgt.py, display the stack trace in case of an ImportError exception as well as for other exceptions. Add Bora to the set for included tool engines.
2018-10-18 11:10:01 -05:00
void RHVSlicingNode::resetWireOccupation ()
{ if (_wireOccupation) _wireOccupation->reset(); }
int RHVSlicingNode::getMaxWireOccupation ()
{ return (_wireOccupation) ? _wireOccupation->getMaxCount()+1 : 0; }
unsigned int RHVSlicingNode::getAlignment () const
{
cerr << Error( "RHVSlicingNode::getAlignment(): Unimplemented on this type." ) << endl;
return UnknownAlignment;
}
NodeSets* RHVSlicingNode::getNodeSets () const
{
cerr << Error( "RHVSlicingNode::getNodeSets(): Unimplemented on this type." ) << endl;
return NULL;
}
BoxSet* RHVSlicingNode::getPairH ( DbU::Unit ) const
{
cerr << Error( "RHVSlicingNode::getPaitH(): Unimplemented on this type." ) << endl;
return _boxSet;
}
BoxSet* RHVSlicingNode::getPairHW( DbU::Unit , DbU::Unit ) const
{
cerr << Error( "RHVSlicingNode::getPaitHW(): Unimplemented on this type." ) << endl;
return _boxSet;
}
void RHVSlicingNode::setPairH( DbU::Unit )
{
cerr << Error( "RHVSlicingNode::setPaitH(): Unimplemented on this type." ) << endl;
}
void RHVSlicingNode::setPairHW( DbU::Unit , DbU::Unit )
{
cerr << Error( "RHVSlicingNode::setPaitHW(): Unimplemented on this type." ) << endl;
}
} // Bora namespace.