[_CD4_]<datools7.0>Route25>RouteChannelRetrieveImpl.mesa!7

RouteChannelRetrieveImpl.mesa

by Bryan Preas July 26, 1985 2:29:20 pm PDT

last edited by Bryan Preas April 3, 1987 3:06:14 pm PST

Christian Le Cocq December 3, 1987 12:55:20 pm PST

DIRECTORY CD, CDBasics, CDRects, CDRoutingObjects, DABasics, Rope, Route, RouteChannel, RoutePrivate, RouteUtil, RTBasic, SymTab;

RouteChannelRetrieveImpl: CEDAR PROGRAM

IMPORTS CDBasics, CDRects, Rope, Route, RouteChannel, RouteUtil, RTBasic, SymTab

EXPORTS RouteChannel = {

GetRouting: PUBLIC PROC [chanData: RouteChannel.ChannelData,

parms: RoutePrivate.RoutingAreaParms,

rules: Route.DesignRules,

rect: DABasics.Rect,

brokenNetName: Route.BrokenNetProc,

channelData: REF ANY,

enumSegments: RouteChannel.EnumSegmentsProc,

enumVias: RouteChannel.EnumViasProc,

enumIncompletes: RouteChannel.EnumIncompletesProc] = {

Enumerate routing results entities

DoVias: PROC [chanTracks: RouteChannel.RoutingChannelTracks,

parms: RoutePrivate.RoutingAreaParms,

rules: Route.DesignRules,

enumVias: RouteChannel.EnumViasProc,

seg: RouteChannel.Segment,

intervalList: RTBasic.RangeList] ~ {

trunkL: CD.Layer ← RouteUtil.RoutingLayerToLayer[rules, trunk];

branchL: CD.Layer ← RouteUtil.RoutingLayerToLayer[rules, branch];

trackLoc: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, seg.trackNum];

FOR list: RTBasic.RangeList ← intervalList, list.rest WHILE list # NIL DO

range: RTBasic.Range ← list.first;

enumVias[parms, name, RouteUtil.PQToXY[rules, [(range.l+range.r)/2, trackLoc]], RouteUtil.PQToXY[rules, [range.r-range.l, seg.qWidth]], trunkL, branchL];

ENDLOOP

};

PinPos: PROC [pin: RouteChannel.ChanPin] RETURNS [pos: DABasics.Number] = {

IF pin.kindOfPin # exitPin THEN pos ← pin.pinPosition.pLoc

ELSE SELECT pin.pinSide FROM

chanLeft => pos ← pos1.p;

chanRight => pos ← pos2.p;

ENDCASE => Route.Error[programmingError, "Invalid data. Call maintainer."];

};

ExitSegPos: PROC [pin: RouteChannel.ChanPin, width: DABasics.Number] RETURNS [pos: DABasics.Number] = {

pos ← IF pin.pinSide = chanLeft THEN pos1.p + width/2

ELSE IF pin.pinSide = chanRight THEN pos2.p - width/2

ELSE Route.Error[programmingError, "Invalid data. Call maintainer."];

};

AnalyzeBranch: PROC [

branchPos: RouteChannel.PinPosition,

segmentLink: RouteChannel.Segment,

branchSide,

segmentSide: RouteChannel.ChanLRSide,

intervalList: RTBasic.RangeList]

RETURNS [branchWidth: DABasics.Number, newIntervalList: RTBasic.RangeList] = {

analyze the branch for this segment

problems with dogleg outside pin range

AnalyzeEachPin: RouteChannel.EachPinActionProc = {

PROC[pinPosition: PinPosition, pin: ChanPin] RETURNS [quit: BOOLEAN ← FALSE];

IF pin # NIL THEN {

SELECT pin.kindOfPin FROM

chanConnect, compPin => {

seg: RouteChannel.Segment ← pin.conctSeg[segmentSide];

IF seg # NIL THEN {

segLength: DABasics.Number ← RouteChannel.Length[seg];

IF seg = segmentLink THEN {

trackLoc: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, seg.trackNum];

otherSeg: RouteChannel.Segment;

qLoc: DABasics.Number;

pLoc: DABasics.Number ← pin.pinPosition.pLoc;

SELECT pin.pinSide FROM

chanTop => {

qLoc ← topLoc + pin.qLoc;

upperMaxQ ← MAX[upperMaxQ, qLoc];

upperMinQ ← MIN[upperMinQ, qLoc];

upperBranchWidth ← MAX[upperBranchWidth, pin.pWidth];

};

chanBottom => {

qLoc ← bottomLoc + pin.qLoc;

lowerMaxQ ← MAX[lowerMaxQ, qLoc];

lowerMinQ ← MIN[lowerMinQ, qLoc];

lowerBranchWidth ← MAX[lowerBranchWidth, pin.pWidth];

};

ENDCASE;

IF seg.routingLayer = trunk AND segLength > 0 THEN

intervalList ← AddInterval[pin.pinPosition.pLoc, pin.pWidth, rules.branchSpacing, intervalList];

otherSeg ← pin.conctSeg[branchSide];

IF otherSeg # NIL THEN

IF otherSeg.trackNum # 0 THEN {

otherTrackLoc: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, otherSeg.trackNum];

IF (otherTrackLoc # 0) AND (otherTrackLoc # trackLoc OR otherSeg.routingLayer # segmentLink.routingLayer) THEN {

otherSegLength: DABasics.Number ← RouteChannel.Length[otherSeg];

upperMaxQ ← MAX[upperMaxQ, otherTrackLoc + otherSeg.qWidth/2];

upperMinQ ← MIN[upperMinQ, otherTrackLoc - otherSeg.qWidth/2];

lowerMaxQ ← MAX[lowerMaxQ, otherTrackLoc + otherSeg.qWidth/2];

lowerMinQ ← MIN[lowerMinQ, otherTrackLoc - otherSeg.qWidth/2];

IF otherSeg.routingLayer = trunk AND otherSegLength > 0 THEN

intervalList ← AddInterval[pin.pinPosition.pLoc, pin.pWidth, rules.branchSpacing, intervalList];

};

dogLeg => {

segList: RouteChannel.SegmentList ← RouteChannel.GetSegsOnPin[pin];

check if dogleg spans more than one track

trackNum: INT ← IF segList.first # NIL THEN segList.first.trackNum ELSE 0;

differentTracks: BOOLEAN ← FALSE;

FOR segs: RouteChannel.SegmentList ← segList.rest, segs.rest WHILE segs # NIL AND ~differentTracks DO

seg: RouteChannel.Segment ← segs.first;

IF seg.trackNum # 0 AND trackNum # seg.trackNum THEN

differentTracks ← TRUE;

trackNum ← seg.trackNum;

ENDLOOP;

IF differentTracks THEN {

dogleg spans at least two tracks, put it in

FOR segs: RouteChannel.SegmentList ← segList, segs.rest WHILE segs # NIL DO

seg: RouteChannel.Segment ← segs.first;

IF seg.trackNum # 0 THEN {

trackLoc: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, seg.trackNum];

IF trackLoc # 0 THEN

{lowerBranchWidth ← MAX[lowerBranchWidth, pin.pWidth];

upperBranchWidth ← MAX[upperBranchWidth, pin.pWidth];

upperMaxQ ← MAX[upperMaxQ, trackLoc + seg.qWidth/2];

upperMinQ ← MIN[upperMinQ, trackLoc - seg.qWidth/2];

lowerMaxQ ← MAX[lowerMaxQ, trackLoc + seg.qWidth/2];

lowerMinQ ← MIN[lowerMinQ, trackLoc - seg.qWidth/2];

IF seg.routingLayer = trunk AND seg = segmentLink THEN

intervalList ← AddInterval[pin.pinPosition.pLoc, pin.pWidth, rules.branchSpacing, intervalList];

};

ENDLOOP;

};

exitPin => {

seg: RouteChannel.Segment ← pin.conctSeg[segmentSide];

IF seg # NIL THEN

IF seg = segmentLink AND seg.trackNum # 0 THEN {

layer: CD.Layer ← RouteUtil.RoutingLayerToLayer[rules, seg.routingLayer];

exitP: DABasics.Number ← PinPos[pin];

trackQ: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, seg.trackNum];

exitQ: DABasics.Number;

IF parms.routerUsed = channel THEN exitQ ← trackQ

ELSE {

maxQ: DABasics.Number ← MAX[trackQ+seg.qWidth/2, pin.qLoc+seg.qWidth/2];

minQ: DABasics.Number ← MIN[trackQ-seg.qWidth/2, pin.qLoc-seg.qWidth/2];

pPos: DABasics.Number ← ExitSegPos[pin, rules.trunkWidth];

enumSegments[

parms,

name,

RouteUtil.PQToXY[rules, [pPos, maxQ]],

RouteUtil.PQToXY[rules, [pPos, minQ]],

rules.trunkWidth,

layer];

exitQ ← pin.qLoc}}};

ENDCASE;

};

trackLoc: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, segmentLink.trackNum];

branchL: CD.Layer ← RouteUtil.RoutingLayerToLayer[rules, branch];

lowerMaxQ, upperMaxQ: DABasics.Number ← trackLoc + segmentLink.qWidth/2;

lowerMinQ, upperMinQ: DABasics.Number ← trackLoc - segmentLink.qWidth/2;

lowerBranchWidth, upperBranchWidth: DABasics.Number ← 0;

analyze component pin branches

[] ← RouteChannel.EnumPins[branchPos, AnalyzeEachPin];

enumerate this branch segment

IF lowerMaxQ > lowerMinQ + segmentLink.qWidth AND lowerBranchWidth > 0 THEN

enumSegments[parms, name,

RouteUtil.PQToXY[rules, [branchPos.pLoc, lowerMinQ]],

RouteUtil.PQToXY[rules, [branchPos.pLoc, lowerMaxQ]],

lowerBranchWidth, branchL];

IF upperMaxQ > upperMinQ + segmentLink.qWidth AND upperBranchWidth > 0 AND (lowerMaxQ # upperMaxQ OR lowerMinQ # upperMinQ) THEN

enumSegments[parms, name,

RouteUtil.PQToXY[rules, [branchPos.pLoc, upperMinQ]],

RouteUtil.PQToXY[rules, [branchPos.pLoc, upperMaxQ]],

upperBranchWidth, branchL];

branchWidth ← MAX[lowerBranchWidth, upperBranchWidth];

newIntervalList ← intervalList;

}; -- AnalyzeBranch

EachTrack: RouteChannel.EachTrackActionProc = {

run through the segments on the track

FOR seg: RouteChannel.Segment ← RouteChannel.TrackSegAbs[chanTracks, trackIndex], seg.nextSeg

WHILE seg # NIL DO

trackLoc: DABasics.Number ← RouteChannel.TrackLoc[chanTracks, parms, rules, seg.trackNum];

leftPin: RouteChannel.ChanPin ← seg.exteriorPins[chanLeft];

rightPin: RouteChannel.ChanPin ← seg.exteriorPins[chanRight];

leftBranchWidth, rightBranchWidth: DABasics.Number ← 0;

segLayer: CD.Layer ← RouteUtil.RoutingLayerToLayer[rules, seg.routingLayer];

intervalList: RTBasic.RangeList ← NIL;

nextSeg: RouteChannel.Segment;

doRight: BOOLEAN;

audit the pins to which this segment point

RouteChannel.CheckPins[seg, leftPin, chanRight];

RouteChannel.CheckPins[seg, rightPin, chanLeft];

figure out the left branch

[leftBranchWidth, intervalList] ← AnalyzeBranch[seg.exteriorPins[chanLeft].pinPosition, seg, name, chanLeft, chanRight, intervalList];

process the interior pins

FOR pinList: RouteChannel.ChanPinList ← seg.interiorPins, pinList.rest WHILE pinList # NIL DO

pin: RouteChannel.ChanPin ← pinList.first;

[, intervalList] ← AnalyzeBranch[pin.pinPosition, seg, name, chanLeft, chanRight, intervalList];

ENDLOOP;

do the right branch if no following segment in this track

nextSeg ← NextSegment[seg];

IF nextSeg # NIL THEN doRight ← seg.trackNum # nextSeg.trackNum

ELSE doRight ← TRUE;

IF doRight THEN

[rightBranchWidth, intervalList] ← AnalyzeBranch[rightPin.pinPosition, seg, name, chanRight, chanLeft, intervalList];

do the vias collected during the AnalyzeBranch Calls

DoVias[chanTracks, parms, rules, enumVias, seg, name, intervalList];

enumerate trunk segment

enumSegments[parms,

name,

RouteUtil.PQToXY[rules, [PinPos[leftPin] - leftBranchWidth/2, trackLoc]],

RouteUtil.PQToXY[rules, [PinPos[rightPin] + rightBranchWidth/2, trackLoc]],

seg.qWidth, segLayer];

ENDLOOP;

};

EachPin: RouteChannel.EachPinActionProc = {

PROC[pinPosition: PinPosition, pin: ChanPin] RETURNS [quit: BOOLEAN ← FALSE];

IF pin # NIL THEN

IF pin.kindOfPin # noPin THEN {

pin is present, look at the segments on the right side

seg: RouteChannel.Segment ← pin.conctSeg[chanRight];

IF seg # NIL THEN {

leftPinPosition: DABasics.Number ← seg.exteriorPins[chanLeft].pinPosition.pLoc;

rightPinPosition: DABasics.Number ← seg.exteriorPins[chanRight].pinPosition.pLoc;

RouteChannel.CheckSegs[seg, pin];

IF (seg.trackNum = 0 AND leftPinPosition # rightPinPosition) OR seg.failed THEN {

a routing failure

qLoc: DABasics.Number ← IF seg.trackNum = 0 THEN 0

ELSE RouteChannel.TrackLoc[chanTracks, parms, rules, seg.trackNum];

enumIncompletes[parms,

seg.net.name,

RouteUtil.PQToXY[rules, [leftPinPosition, qLoc]],

RouteUtil.PQToXY[rules, [rightPinPosition, qLoc]]];

};

chanPins: RouteChannel.RoutingChannelPins ← chanData.chanPins;

chanTracks: RouteChannel.RoutingChannelTracks ← chanData.chanTracks;

nRect: DABasics.Rect ← CDBasics.ReInterpreteRect[rect];

pos1: RTBasic.PQPos ← RouteUtil.XYToPQ[rules, [nRect.x1, nRect.y1]];

pos2: RTBasic.PQPos ← RouteUtil.XYToPQ[rules, [nRect.x2, nRect.y2]];

bottomLoc: DABasics.Number ← pos1.q;

topLoc: DABasics.Number ← pos2.q;

[] ← RouteChannel.EnumTracks[chanTracks, EachTrack];

enumerate the incompletes and audit the segments

FOR index: RouteChannel.MPinsOnCh IN [1 .. chanPins.count] DO

[] ← RouteChannel.EnumPins[chanPins.sides[index], EachPin];

ENDLOOP

};

AddInterval: PROC [pos, size, minGap: DABasics.Number, intervalList: RTBasic.RangeList] RETURNS [list: RTBasic.RangeList ← NIL] ~ {

thisRange: RTBasic.Range ← [pos - size/2, pos+size/2];

found: BOOLEAN ← FALSE;

FOR l: RTBasic.RangeList ← intervalList, l.rest WHILE l # NIL DO

currentRange: RTBasic.Range ← l.first;

gap: RTBasic.Range ← RTBasic.Gap[thisRange, currentRange];

lengthGap: INT ← gap.r - gap.l;

IF RTBasic.Overlaps[thisRange, currentRange] OR (0 <= lengthGap AND lengthGap < minGap) THEN {

currentRange ← RTBasic.Span[thisRange, currentRange];

found ← TRUE;

};

list ← CONS[currentRange, list];

ENDLOOP;

IF ~found THEN list ← CONS[thisRange, list];

intervalList ← list

};

RetrieveSegments: PUBLIC RouteChannel.EnumSegmentsProc = {

Call back for wiring segments

TYPE = PROCEDURE[

parms: RoutePrivate.RoutingAreaParms,

name: Rope.ROPE,

pos1, pos2: DABasics.Position,

width: DABasics.Number,

layer: CD.Layer];

cell: CD.Object;

rectSize, position: CD.Position;

[position, rectSize] ← RouteUtil.LineToRect[pos1, pos2, width];

cell ← CDRects.CreateRect[rectSize, layer];

AddToList[parms.entityTable, name, [cell, position]];};

RetrieveVias: PUBLIC RouteChannel.EnumViasProc ={

Call back for branch ends

TYPE = PROCEDURE[

parms: RoutePrivate.RoutingAreaParms,

name: Rope.ROPE,

pos, size: DABasics.Position, rectangle of size centered on pos

layer1, layer2: CD.Layer];

cell: CD.Object ← RouteUtil.StitchVias[size, layer1, layer2, parms.lambda, parms.viaTable];

cellSize: CD.Position ← CDBasics.SizeOfRect[cell.bbox];

position: CD.Position ← [pos.x - cellSize.x/2, pos.y - cellSize.y/2];

AddToList[parms.entityTable, name, [cell, position]]};

RetrieveIncompletes: PUBLIC RouteChannel.EnumIncompletesProc = {

TYPE = PROCEDURE[

parms: RoutePrivate.RoutingAreaParms,

name: Rope.ROPE,

pos1, pos2: DABasics.Position];

Route.Signal[noResource, Rope.Cat["Incomplete routint of net: ", name]]};

NextSegment: PROC [seg: RouteChannel.Segment] RETURNS [nextSeg: RouteChannel.Segment] ~ {

nextSeg ← seg.exteriorPins[chanRight].conctSeg[chanRight];

IF nextSeg = NIL THEN

nextSeg ← seg.exteriorPins[chanRight].altConctSeg[chanRight];

};

PlOs: TYPE = REF PlOList;

PlOList: TYPE = LIST OF CDRoutingObjects.PlacedObject;

AddToList: PROC [table: SymTab.Ref, key: SymTab.Key, placedObj: CDRoutingObjects.PlacedObject] ~ {

add placedObj to the appropriate list

val: SymTab.Val ← SymTab.Fetch[table, key].val;

geometry: PlOList = IF val = NIL THEN NIL ELSE NARROW [val, PlOs]^;

newGeometry: PlOList ← CONS[placedObj, geometry];

[] ← SymTab.Store[table, key, NEW[PlOList ← newGeometry]]};

GetSegmentName: PROC [channelData: REF ANY, seg: RouteChannel.Segment, brokenNetName: Route.BrokenNetProc] RETURNS [label: Route.Label] ~ {

IF ~seg.exitBreak OR brokenNetName = NIL THEN label ← seg.net.name

ELSE {

label ← brokenNetName[channelData, seg.net.netData, seg.net.name, seg.part, 2];

IF label=NIL THEN Route.Signal[noResource, "A constraint loop requires a net to be broken which client forbids breaking."];

};