Support for non complete clock-tree to fill every nook and cranny.
* Change: In Cumulus/plugins.block.spares, allow the QuadTree to have only *some* of it's four childs (BL, TL, TR, BR). Modify QuandTree.getLeafUnder() so when there is no leaf under the point, due to an incomplete tree, we get the closer leaf. Leaf are suppressed when their center points (where the buffers are to be put) are under a FIXED Instance (that is, an opaque block). Those opaque blocks (or macro blocks) must be put *on the periphery* of the design, because the closer they got to the center, the larger the chunks of QuadTree that are removeds. * Change: In Cumulus/plugins.block.clocktree, based on the spare QuadTree changes, can now build a clock-tree with some of the leaf missing. Should find a way to compensate for the missing leaf wires & buffer (dummies).
This commit is contained in:
parent
f4891a0aee
commit
9dc0040703
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@ -438,6 +438,7 @@ class Block ( object ):
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self.clockTrees.append( ClockTree(self.spares,clockNet,len(self.clockTrees)) )
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self.clockTrees[-1].buildHTree()
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trace( 550, '-' )
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Breakpoint.stop( 100, 'Block.addClockTrees() on {} done.'.format(self.conf.cellPnR) )
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def splitClocks ( self ):
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"""
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@ -104,41 +104,66 @@ class ClockTree ( object ):
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hLeafDepth = gaugeConf.horizontalDepth
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if gaugeConf.horizontalDepth > 2 and (gaugeConf.horizontalDepth > gaugeConf.verticalDepth):
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hLeafDepth = gaugeConf.horizontalDepth - 2
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leftSourceContact = gaugeConf.rpAccessByPlugName( qt.buffer , bufferConf.output, ckNet , GaugeConf.HAccess|GaugeConf.OffsetBottom1 )
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rightSourceContact = gaugeConf.rpAccessByPlugName( qt.buffer , bufferConf.output, ckNet , GaugeConf.HAccess|GaugeConf.OffsetBottom1 )
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blContact = gaugeConf.rpAccessByPlugName( qt.bl.buffer, bufferConf.input , ckNet )
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brContact = gaugeConf.rpAccessByPlugName( qt.br.buffer, bufferConf.input , ckNet )
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tlContact = gaugeConf.rpAccessByPlugName( qt.tl.buffer, bufferConf.input , ckNet )
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trContact = gaugeConf.rpAccessByPlugName( qt.tr.buffer, bufferConf.input , ckNet )
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leftContact = gaugeConf.createContact( ckNet, blContact.getX(), leftSourceContact.getY(), 0 )
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rightContact = gaugeConf.createContact( ckNet, brContact.getX(), rightSourceContact.getY(), 0 )
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leftSourceX = gaugeConf.getNearestVerticalTrack ( leftSourceContact.getX(), 0 )
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leftSourceY = gaugeConf.getNearestHorizontalTrack( leftSourceContact.getY(), 0 )
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rightSourceX = gaugeConf.getNearestVerticalTrack ( rightSourceContact.getX(), 0 )
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rightSourceY = gaugeConf.getNearestHorizontalTrack( rightSourceContact.getY(), 0 )
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leftX = gaugeConf.getNearestVerticalTrack ( leftContact.getX(), 0 )
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rightX = gaugeConf.getNearestVerticalTrack ( rightContact.getX(), 0 )
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tlY = gaugeConf.getTrack( tlContact.getY(), hLeafDepth, 0 )
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blY = gaugeConf.getTrack( blContact.getY(), hLeafDepth, 0 )
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#tlY = gaugeConf.getNearestHorizontalTrack( tlContact.getY(), 0 )
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#blY = gaugeConf.getNearestHorizontalTrack( blContact.getY(), 0 )
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trace( 550, '\tblY:{}\n'.format( DbU.getValueString(blY) ))
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gaugeConf.setStackPosition( leftSourceContact, leftSourceX, leftSourceY )
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gaugeConf.setStackPosition( rightSourceContact, rightSourceX, rightSourceY )
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gaugeConf.setStackPosition( tlContact, leftX, tlY )
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gaugeConf.setStackPosition( blContact, leftX, blY )
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gaugeConf.setStackPosition( trContact, rightX, tlY )
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gaugeConf.setStackPosition( brContact, rightX, blY )
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leftContact .setX( leftX )
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leftContact .setY( leftSourceY )
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rightContact.setX( rightX )
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rightContact.setY( rightSourceY )
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gaugeConf.createHorizontal( leftContact , leftSourceContact, leftSourceY , 0 )
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gaugeConf.createHorizontal( rightSourceContact, rightContact , rightSourceY, 0 )
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gaugeConf.createVertical ( leftContact , blContact , leftX , 0 )
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gaugeConf.createVertical ( tlContact , leftContact , leftX , 0 )
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gaugeConf.createVertical ( rightContact , brContact , rightX , 0 )
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gaugeConf.createVertical ( trContact , rightContact , rightX , 0 )
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blContact = None
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brContact = None
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tlContact = None
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trContact = None
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leftContact = None
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rigthContact = None
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if qt.bl:
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blContact = gaugeConf.rpAccessByPlugName( qt.bl.buffer, bufferConf.input , ckNet )
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if qt.br:
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brContact = gaugeConf.rpAccessByPlugName( qt.br.buffer, bufferConf.input , ckNet )
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if qt.tl:
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tlContact = gaugeConf.rpAccessByPlugName( qt.tl.buffer, bufferConf.input , ckNet )
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if qt.tr:
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trContact = gaugeConf.rpAccessByPlugName( qt.tr.buffer, bufferConf.input , ckNet )
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if qt.bl or qt.tl:
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leafContact = blContact if brContact else tlContact
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leftSourceContact = gaugeConf.rpAccessByPlugName( qt.buffer, bufferConf.output, ckNet , GaugeConf.HAccess|GaugeConf.OffsetBottom1 )
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leftSourceX = gaugeConf.getNearestVerticalTrack ( leftSourceContact.getX(), 0 )
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leftSourceY = gaugeConf.getNearestHorizontalTrack( leftSourceContact.getY(), 0 )
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leftContact = gaugeConf.createContact( ckNet, leafContact.getX(), leftSourceContact.getY(), 0 )
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leftX = gaugeConf.getNearestVerticalTrack( leftContact.getX(), 0 )
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gaugeConf.setStackPosition( leftSourceContact, leftSourceX, leftSourceY )
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leftContact .setX( leftX )
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leftContact .setY( leftSourceY )
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if qt.br or qt.tr:
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leafContact = brContact if brContact else trContact
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rightSourceContact = gaugeConf.rpAccessByPlugName( qt.buffer, bufferConf.output, ckNet , GaugeConf.HAccess|GaugeConf.OffsetBottom1 )
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rightSourceX = gaugeConf.getNearestVerticalTrack( rightSourceContact.getX(), 0 )
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rightSourceY = gaugeConf.getNearestHorizontalTrack( rightSourceContact.getY(), 0 )
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rightContact = gaugeConf.createContact( ckNet, leafContact.getX(), rightSourceContact.getY(), 0 )
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rightX = gaugeConf.getNearestVerticalTrack( rightContact.getX(), 0 )
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gaugeConf.setStackPosition( rightSourceContact, rightSourceX, rightSourceY )
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rightContact.setX( rightX )
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rightContact.setY( rightSourceY )
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if qt.bl or qt.tl:
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gaugeConf.createHorizontal( leftContact, leftSourceContact, leftSourceY , 0 )
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if qt.br or qt.tr:
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gaugeConf.createHorizontal( rightSourceContact, rightContact, rightSourceY, 0 )
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if tlContact:
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tlY = gaugeConf.getTrack( tlContact.getY(), hLeafDepth, 0 )
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elif trContact:
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tlY = gaugeConf.getTrack( trContact.getY(), hLeafDepth, 0 )
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if blContact:
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blY = gaugeConf.getTrack( blContact.getY(), hLeafDepth, 0 )
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trace( 550, '\tblY:{}\n'.format( DbU.getValueString(blY) ))
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elif brContact:
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blY = gaugeConf.getTrack( brContact.getY(), hLeafDepth, 0 )
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trace( 550, '\tblY:{}\n'.format( DbU.getValueString(blY) ))
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if qt.tl:
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gaugeConf.setStackPosition( tlContact, leftX, tlY )
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gaugeConf.createVertical ( tlContact, leftContact, leftX, 0 )
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if qt.bl:
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gaugeConf.setStackPosition( blContact, leftX, blY )
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gaugeConf.createVertical ( leftContact, blContact, leftX, 0 )
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if qt.tr:
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gaugeConf.setStackPosition( trContact, rightX, tlY )
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gaugeConf.createVertical ( trContact, rightContact, rightX, 0 )
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if qt.br:
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gaugeConf.setStackPosition( brContact, rightX, blY )
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gaugeConf.createVertical ( rightContact, brContact, rightX, 0 )
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if qt.isRoot():
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ckNet = self.clockNet
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if not self.spares.conf.isCoreBlock:
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@ -1,4 +1,4 @@
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#
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# This file is part of the Coriolis Software.
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# Copyright (c) SU 2020-2020, All Rights Reserved
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#
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@ -253,10 +253,43 @@ class QuadTree ( object ):
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else:
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area = Box( area )
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spares.conf.icore.getTransformation().applyOn( area )
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root = QuadTree( spares, None, area )
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root = QuadTree._create( spares, None, area, 'root', raiseError=True )
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root.rpartition()
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return root
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@staticmethod
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def isUsedArea ( spares, area, rtag, raiseError ):
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centerArea = Box( area.getCenter() )
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sliceHeight = spares.conf.sliceHeight
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centerArea.inflate( 4*sliceHeight, sliceHeight )
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trace( 540, '\tQuadTree.isUnderArea(): {} {} of {}\n'.format(rtag,centerArea,spares.conf.cell) )
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trace( 540, '\t{}\n'.format( spares.conf.cellPnR ))
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for occurrence in spares.conf.cellPnR.getTerminalNetlistInstanceOccurrencesUnder( centerArea ):
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if not isinstance(occurrence.getEntity(),Instance):
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continue
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instance = occurrence.getEntity()
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masterCell = instance.getMasterCell()
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if not masterCell.isTerminalNetlist():
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continue
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trace( 540, '\t| Overlap {}\n'.format(occurrence.getEntity()) )
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if raiseError:
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raise Error%essage( 1, [ 'QuadTree.create(): Unable to create QuadTree under area {}' \
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.format(area)
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, 'Area center is under fixed block {}' .format()
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] )
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return True
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sys.stdout.flush()
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sys.stderr.flush()
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return False
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@staticmethod
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def _create ( spares, parent, area, rtag, raiseError=False ):
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childRtag = parent.rtag+'_'+rtag if parent else rtag
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if QuadTree.isUsedArea( spares, area, childRtag, raiseError ):
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return None
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qt = QuadTree( spares, parent, area, childRtag )
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return qt
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def __init__ ( self, spares, parent, area, rtag='root' ):
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self.spares = spares
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self.area = area
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@ -474,73 +507,73 @@ class QuadTree ( object ):
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if aspectRatio < 0.5:
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self.ycut = self.spares.toYSlice( self.area.getYMin() + self.area.getHeight()/2 )
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self.bl = QuadTree( self.spares
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, self
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, Box( self.area.getXMin()
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, self.area.getYMin()
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, self.area.getXMax()
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, self.ycut )
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, 'bl' )
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self.tl = QuadTree( self.spares
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, self
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, Box( self.area.getXMin()
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, self.ycut
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, self.area.getXMax()
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, self.area.getYMax() )
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, 'tl' )
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self.bl = QuadTree._create( self.spares
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, self
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, Box( self.area.getXMin()
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, self.area.getYMin()
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, self.area.getXMax()
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, self.ycut )
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, 'bl' )
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self.tl = QuadTree._create( self.spares
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, self
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, Box( self.area.getXMin()
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, self.ycut
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, self.area.getXMax()
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, self.area.getYMax() )
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, 'tl' )
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trace( 540, '\tVertical bi-partition @Y:{}\n'.format(DbU.getValueString(self.ycut)) )
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trace( 540, '-' )
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return True
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elif aspectRatio > 2.0:
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self.xcut = self.spares.toXPitch( self.area.getXMin() + self.area.getWidth()/2 )
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self.bl = QuadTree( self.spares
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, self
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, Box( self.area.getXMin()
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, self.area.getYMin()
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, self.xcut
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, self.area.getYMax() )
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, 'bl' )
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self.br = QuadTree( self.spares
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, self
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, Box( self.xcut
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, self.area.getYMin()
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, self.area.getXMax()
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, self.area.getYMax() )
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, 'br' )
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self.bl = QuadTree._create( self.spares
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, self
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, Box( self.area.getXMin()
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, self.area.getYMin()
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, self.xcut
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, self.area.getYMax() )
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, 'bl' )
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self.br = QuadTree._create( self.spares
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, self
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, Box( self.xcut
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, self.area.getYMin()
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, self.area.getXMax()
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, self.area.getYMax() )
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, 'br' )
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trace( 540, '\tHorizontal bi-partition @X:{}\n'.format(DbU.getValueString(self.xcut)) )
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trace( 540, '-' )
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return True
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self.ycut = self.spares.toYSlice( self.area.getYMin() + self.area.getHeight()/2 )
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self.xcut = self.spares.toXPitch( self.area.getXMin() + self.area.getWidth ()/2 )
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self.bl = QuadTree( self.spares
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, self
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, Box( self.area.getXMin()
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, self.area.getYMin()
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, self.xcut
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, self.ycut )
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, 'bl' )
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self.br = QuadTree( self.spares
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, self
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, Box( self.xcut
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, self.area.getYMin()
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, self.area.getXMax()
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, self.ycut )
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, 'br' )
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self.tl = QuadTree( self.spares
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, self
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, Box( self.area.getXMin()
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, self.ycut
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, self.xcut
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, self.area.getYMax() )
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, 'tl' )
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self.tr = QuadTree( self.spares
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, self
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, Box( self.xcut
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, self.ycut
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, self.area.getXMax()
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, self.area.getYMax() )
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, 'tr' )
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self.bl = QuadTree._create( self.spares
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, self
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, Box( self.area.getXMin()
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, self.area.getYMin()
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, self.xcut
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, self.ycut )
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, 'bl' )
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self.br = QuadTree._create( self.spares
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, self
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, Box( self.xcut
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, self.area.getYMin()
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, self.area.getXMax()
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, self.ycut )
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, 'br' )
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self.tl = QuadTree._create( self.spares
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, self
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, Box( self.area.getXMin()
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, self.ycut
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, self.xcut
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, self.area.getYMax() )
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, 'tl' )
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self.tr = QuadTree._create( self.spares
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, self
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, Box( self.xcut
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, self.ycut
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, self.area.getXMax()
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, self.area.getYMax() )
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, 'tr' )
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trace( 540, '\tQuadri-partition @X:{} + @Y:{}\n'\
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.format(DbU.getValueString(self.xcut),DbU.getValueString(self.ycut)) )
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@ -658,11 +691,21 @@ class QuadTree ( object ):
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if self.isVBipart():
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if position.getY() < self.ycut: return self.bl.getLeafUnder(position)
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return self.tl.getLeafUnder(position)
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leaf = None
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if position.getX() < self.xcut:
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if position.getY() < self.ycut: return self.bl.getLeafUnder(position)
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return self.tl.getLeafUnder(position)
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if position.getY() < self.ycut: return self.br.getLeafUnder(position)
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return self.tr.getLeafUnder(position)
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if position.getY() < self.ycut: leaf = self.bl
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else: leaf = self.tl
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else:
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if position.getY() < self.ycut: leaf = self.br
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else: leaf = self.tr
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if not leaf:
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dx = abs( position.getX() - self.xcut )
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dy = abs( position.getY() - self.ycut )
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if self.tr and ((dx < dy) or not leaf): leaf = self.tr
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if self.tl and ((dx < dy) or not leaf): leaf = self.tl
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if self.br and ((dx >= dy) or not leaf): leaf = self.br
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if self.bl and ((dx >= dy) or not leaf): leaf = self.bl
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return leaf.getLeafUnder(position)
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def getFreeLeafUnder ( self, area, attractor=None ):
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"""
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@ -867,7 +910,7 @@ class Spares ( object ):
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, DbU.getValueString(7*self.conf.sliceHeight ) ))
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with UpdateSession():
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self.quadTree = QuadTree.create( self )
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self._addCapTies()
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#self._addCapTies()
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trace( 540, '-' )
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def rshowPoolUse ( self ):
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