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coriolis/anabatic/src/AutoContactTerminal.cpp

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Anabatic transient commit 11. Merge Katabatic into Anabatic. * New: In Anabatic, merge in the Katabatic tool. The merge is not complete yet. Only basic capabilities have been moved.
2016-07-18 07:48:37 -05:00
// -*- C++ -*-
//
// This file is part of the Coriolis Software.
// Copyright (c) UPMC 2012-2016, All Rights Reserved
//
// +-----------------------------------------------------------------+
// | C O R I O L I S |
// | A n a b a t i c - Routing Toolbox |
// | |
// | Author : Jean-Paul CHAPUT |
// | E-mail : Jean-Paul.Chaput@lip6.fr |
// | =============================================================== |
// | C++ Module : "./AutoContactTerminal.cpp" |
// +-----------------------------------------------------------------+
#include <cstdlib>
#include <climits>
#include <sstream>
#include "hurricane/Bug.h"
#include "hurricane/Error.h"
#include "hurricane/Warning.h"
#include "hurricane/Layer.h"
#include "hurricane/ViaLayer.h"
#include "hurricane/BasicLayer.h"
#include "hurricane/Technology.h"
#include "hurricane/Net.h"
#include "hurricane/Plug.h"
#include "hurricane/RoutingPad.h"
#include "hurricane/Vertical.h"
#include "hurricane/Horizontal.h"
#include "hurricane/DebugSession.h"
#include "crlcore/RoutingGauge.h"
#include "anabatic/AutoContactTerminal.h"
#include "anabatic/AutoContactTurn.h"
#include "anabatic/AutoVertical.h"
#include "anabatic/AutoHorizontal.h"
#include "anabatic/Session.h"
namespace Anabatic {
using std::ostringstream;
using Hurricane::Bug;
using Hurricane::Error;
using Hurricane::DebugSession;
using Hurricane::Transformation;
using Hurricane::Entity;
// -------------------------------------------------------------------
// Class : "Anabatic::AutoContactTerminal".
AutoContactTerminal* AutoContactTerminal::create ( GCell* gcell
, Component* anchor
, const Layer* layer
, Point point
, DbU::Unit width
, DbU::Unit height
)
{
cdebug_log(145,1) << "AutoContactTerminal::create(... Point, ...)" << endl;
cdebug_log(145,0) << "@" << point << endl;
anchor->getBodyHook()->detach();
AutoContactTerminal* autoContact = AutoContactTerminal::create( gcell
, anchor
, layer
, point.getX(), point.getY()
, width, height
);
cdebug_tabw(145,-1);
return autoContact;
}
AutoContactTerminal* AutoContactTerminal::create ( GCell* gcell
, Component* anchor
, const Layer* layer
, const DbU::Unit x
, const DbU::Unit y
, const DbU::Unit width
, const DbU::Unit height
)
{
cdebug_log(145,0) << "AutoContactTerminal::create(... x, y, ...)" << endl;
cdebug_log(145,0) << "@ x:" << DbU::getValueString(x) << " y:" << DbU::getValueString(y) << endl;
Point anchorPosition = anchor->getPosition();
Contact* contact = Contact::create( anchor
, layer
, x - anchorPosition.getX()
, y - anchorPosition.getY()
, width
, height
);
AutoContactTerminal* autoContact = new AutoContactTerminal( gcell, contact );
autoContact->_postCreate();
autoContact->unsetFlags( CntInCreationStage );
cdebug_log(145,0) << "create(Component*) " << autoContact << endl;
return autoContact;
}
AutoContactTerminal::AutoContactTerminal ( GCell* gcell, Contact* contact )
: AutoContact(gcell,contact)
, _segment (NULL)
{
setFlags( CntTerminal );
}
AutoContactTerminal::~AutoContactTerminal ()
{ }
AutoSegment* AutoContactTerminal::getOpposite ( const AutoSegment* ) const
{ return NULL; }
AutoSegment* AutoContactTerminal::getPerpandicular ( const AutoSegment* ) const
{ return NULL; }
AutoSegment* AutoContactTerminal::getSegment ( unsigned int index ) const
{
if (_segment) {
switch ( index ) {
case 0: return (_segment->isHorizontal()) ? _segment : NULL;
case 2: return (_segment->isVertical ()) ? _segment : NULL;
}
}
return NULL;
}
Box AutoContactTerminal::getNativeConstraintBox () const
{
cdebug_log(145,1) << "AutoContactTerminal::getNativeConstraintBox()" << endl;
Component* component = getAnchor();
if (component == NULL) {
cerr << Error( "%s is not anchored.", getString(this).c_str() ) << endl;
cdebug_tabw(145,-1);
return _gcell->getBoundingBox ();
}
DbU::Unit xMin;
DbU::Unit xMax;
DbU::Unit yMin;
DbU::Unit yMax;
Vertical* vertical;
Horizontal* horizontal;
RoutingPad* routingPad;
if ( (horizontal = dynamic_cast<Horizontal*>(component)) ) {
cdebug_log(145,0) << "Anchor: " << horizontal << "@" << horizontal->getSourcePosition() << endl;
xMin = horizontal->getSourcePosition().getX();
xMax = horizontal->getTargetPosition().getX();
yMin = yMax
= horizontal->getTargetPosition().getY();
} else if ( (vertical = dynamic_cast<Vertical*>(component)) ) {
cdebug_log(145,0) << "Anchor: " << vertical << "@" << vertical->getSourcePosition() << endl;
yMin = vertical->getSourcePosition().getY();
yMax = vertical->getTargetPosition().getY();
xMin = xMax
= vertical->getTargetPosition().getX();
} else if ( (routingPad = dynamic_cast<RoutingPad*>(component)) ) {
Entity* entity = routingPad->getOccurrence().getEntity();
Transformation transf = routingPad->getOccurrence().getPath().getTransformation();
cdebug_log(145,0) << "Anchor: " << routingPad << endl;
int rpOrient = 1;
switch ( transf.getOrientation() ) {
case Transformation::Orientation::R1:
case Transformation::Orientation::R3:
case Transformation::Orientation::XR:
case Transformation::Orientation::YR:
rpOrient = 2;
break;
default:
break;
}
if (dynamic_cast<Horizontal*>(entity)) {
// rpOrient *is* the rotation.
} else if ( dynamic_cast<Vertical*>(entity) ) {
// rpOrient is the inverse rotation.
rpOrient = (rpOrient == 1) ? 2 : 1;
} else {
rpOrient = 0;
}
switch ( rpOrient ) {
case 1:
xMin = routingPad->getSourcePosition().getX();
xMax = routingPad->getTargetPosition().getX();
yMin = yMax
= routingPad->getTargetPosition().getY();
break;
case 2:
yMin = routingPad->getSourcePosition().getY();
yMax = routingPad->getTargetPosition().getY();
xMin = xMax
= routingPad->getTargetPosition().getX();
break;
default:
xMin = xMax = routingPad->getPosition().getX();
yMin = yMax = routingPad->getPosition().getY();
break;
}
} else {
xMin = xMax = component->getPosition().getX();
yMin = yMax = component->getPosition().getY();
}
order( xMin, xMax );
order( yMin, yMax );
cdebug_log(145,0) << "| Using (y): " << DbU::getValueString(yMin) << " "
<< DbU::getValueString(yMax) << endl;
cdebug_tabw(145,-1);
return Box( xMin, yMin, xMax, yMax );
}
void AutoContactTerminal::_invalidate ( unsigned int flags )
{
if (_segment) _segment->invalidate();
}
void AutoContactTerminal::cacheDetach ( AutoSegment* segment )
{
if (_segment == segment) {
_segment = NULL;
setFlags( CntInvalidatedCache );
}
}
void AutoContactTerminal::cacheAttach ( AutoSegment* segment )
{
if (_segment) {
cerr << Bug( "%s::cacheAttach() On %s,\n"
" cache has not been cleared first, cancelled."
, _getTypeName().c_str(), getString(this).c_str()
) << endl;
return;
}
_segment = segment;
unsetFlags( CntInvalidatedCache );
}
void AutoContactTerminal::updateCache ()
{
DebugSession::open( getNet(), 140, 150 );
cdebug_log(145,1) << _getTypeName() << "::updateCache() " << this << endl;
Component* anchor;
Horizontal** horizontals = new Horizontal* [2];
Vertical** verticals = new Vertical* [2];
_getTopology( base(), anchor, horizontals, verticals, 2 );
if (anchor == NULL)
showTopologyError( "Terminal is missing an anchor (RoutingPad or Component)." );
size_t count = 0;
if (horizontals[0] != NULL) ++count;
if (horizontals[1] != NULL) ++count;
if (verticals [0] != NULL) ++count;
if (verticals [1] != NULL) ++count;
if (count > 1) {
showTopologyError( "Terminal has more than one segment." );
}
if (horizontals[0] != NULL ) {
_segment = Session::lookup( horizontals[0] );
} else {
_segment = Session::lookup( verticals[0] );
}
if (_segment == NULL) {
ostringstream os;
os << this << ", AutoSegment lookup failed for:"
<< "\n h1: " << horizontals[0]
<< "\n v1: " << verticals[0];
delete [] horizontals;
delete [] verticals;
showTopologyError( os.str() );
throw Error( os.str() );
}
unsetFlags( CntInvalidatedCache );
cdebug_log(145,0) << "seg:" << _segment << endl;
delete [] horizontals;
delete [] verticals;
cdebug_tabw(145,-1);
DebugSession::close();
}
void AutoContactTerminal::updateGeometry ()
{
DebugSession::open( getNet(), 140, 150 );
cdebug_log(145,1) << _getTypeName() << "::updateGeometry() " << this << endl;
if (isInvalidatedCache()) updateCache();
if (isInvalidatedCache()) {
cerr << Error( "%s::updateGeometry() %s: Unable to restore cache."
, _getTypeName().c_str(), getString(this).c_str() ) << endl;
cdebug_tabw(145,-1);
return;
}
base()->invalidate( false );
unsetFlags( CntInvalidated );
ostringstream message;
if (not hasBadTopology()) {
if (_segment->isHorizontal()) {
if (not getUConstraints(Flags::Vertical).contains(_segment->getY())) {
cdebug_log(145,0) << "Cached: " << _segment << endl;
message << "Terminal horizontal segment Y " << DbU::getValueString(_segment->getY())
<< " axis is outside RoutingPad " << getUConstraints(Flags::Vertical) << ".";
Anabatic transient commit 18. Port of Kite (Katana), Yeah, Baby! Yeah! * Bug: In Hurricane, in StaticObservable::getObserver(), if the slot pointer is NULL, do not try to access the owner. Returns NULL, so the caller can be aware of the situation... * Change: In Hurricane, in BreakpointWidget & ExceptionWidget some cosmetic changes (fonts and window sizes). * Bug: In Anabatic, In AutoHorizontal::getConstraints(), take into account the constraints from the source AutoContact, as it holds the constraints transmitted by the RoutingPads and sets up by propageConstraintsFromRp(). It is likely to be a bug affecting the original Katabatic as well. * Change: In Anabatic, in RawGCellsUnder(), check that the segment is not completly oustside the cell abutment box and truncate the coordinates to the part that is inside. Use the "shrink" if we reach the east/north border. * Change: In Anabatic, in Configuration, no more decorator because we will use a true derived relationship. Katana *derives* from *Anabatic* and do not *decorate* it, so the Configuration can do the same. It also implies that we directly create a Katana engine, not an Anabatic one. * Change: In Anabatic, in Session, do not allow the opening of the Session in a standalone fashion (with a static method). Instead it must be opened using the relevant method of the Anabatic/Katana engine. This ensure we are opening the right Session type. * Change: In Anabatic, in AutoSegment_Aligneds() collection the seed segment is not part of the collection by default, but will be included if the Flags::WithSelf is set. * Change: In Configuration, all the flags value are now defined in two steps. Declared in the header and initialized in the module. This is to prevent the fact that on some cases, in relation with the Python "extern C" part modules, we need a true allocated variable. It was causing weird linking problems. A side effect is that they can no longer be used as entry is switches, have to replace them by if/else. * New: In Anabatic, new GCell::getNeighborAt() utility function. * Bug: In Anabatic, in GCell::doGrid(), tag all the GCells of the grid with the grid type... Back annote all the edges capacity (north & east) with the reserved local capacity. * New: Complete portage of Kite over Anabatic. The new engine is christened "Katana" for Kite-Analogic. When it's capabilities and performances will be on a part with Kite, it is to completly replace it (and take back the "Kite" name). Preliminary tests seems to show that, contrary to intuition (because built on a more complex/slower grid), it is even slightly faster than Kite 8-).
2016-08-15 09:30:13 -05:00
Interval intv;
_segment->getConstraints( intv );
message << "\n Segment constraints: " << intv << endl;
Anabatic transient commit 11. Merge Katabatic into Anabatic. * New: In Anabatic, merge in the Katabatic tool. The merge is not complete yet. Only basic capabilities have been moved.
2016-07-18 07:48:37 -05:00
unsigned int flags = 0;
if (_segment->isCreated()) flags |= Flags::CParanoid;
showTopologyError( message.str(), flags );
} else
setY( _segment->getY() );
} else {
if (not getUConstraints(Flags::Horizontal).contains(_segment->getX())) {
cdebug_log(145,0) << "Cached: " << _segment << endl;
message << "Terminal vertical segment X" << DbU::getValueString(_segment->getX())
<< " axis is outside RoutingPad " << getUConstraints(Flags::Horizontal) << ".";
unsigned int flags = 0;
if (_segment->isCreated()) flags |= Flags::CParanoid;
showTopologyError( message.str(), flags );
} else
setX( _segment->getX() );
}
}
cdebug_tabw(145,-1);
DebugSession::close();
}
void AutoContactTerminal::updateTopology ()
{
DebugSession::open( getNet(), 140, 150 );
cdebug_log(145,1) << _getTypeName() << "::updateTopology() " << this << endl;
if (isInvalidatedCache()) updateCache();
if (isInvalidatedCache()) {
cerr << Error( "%s::updateGeometry() %s: Unable to restore cache."
, _getTypeName().c_str(), getString(this).c_str() ) << endl;
cdebug_tabw(145,-1);
return;
}
RoutingGauge* rg = Session::getRoutingGauge();
size_t anchorDepth = rg->getLayerDepth( (_flags & CntIgnoreAnchor) ? getLayer()
: getAnchor()->getLayer() );
size_t segmentDepth = rg->getLayerDepth( _segment->getLayer() );
size_t delta = abssub( anchorDepth, segmentDepth );
if (delta > 3) {
showTopologyError( "Sheared Terminal, layer delta exceed 3." );
setFlags( CntBadTopology );
} else {
if (delta > 1) {
//_segment = _segment->makeDogleg( this );
_segment->makeDogleg( this );
cdebug_log(145,0) << "Update seg: " << _segment << endl;
delta = abssub( anchorDepth, rg->getLayerDepth( _segment->getLayer() ) );
}
else if (delta == 0) setLayer( rg->getRoutingLayer(anchorDepth) );
else if (delta == 1) setLayer( rg->getContactLayer(std::min(anchorDepth,segmentDepth)) );
}
_segment->invalidate( this );
cdebug_tabw(145,-1);
DebugSession::close();
}
string AutoContactTerminal::_getTypeName () const
{ return "ContactTerminal"; }
} // Anabatic namespace.