[Pixel]<DATools7.0>Extract>SinixOpsImpl.mesa!7

SinixOpsImpl.mesa

Jean-Marc Frailong September 4, 1987 2:35:20 pm PDT

Bertrand Serlet August 27, 1987 11:16:07 pm PDT

Barth, February 18, 1987 8:20:55 pm PST

DIRECTORY

CD, CDBasics, CDCells, CDDirectory, CDEnvironment, CDInstances, CDOps, CDPopUpMenus, CDProperties, CDRects, CDSatellites, CDSequencer, CDViewer, CDViewHighlight,

CedarProcess, Convert,

Core, CoreClasses, CoreFlat, CoreOps,

CoreGeometry,

IO,

PopUpMenus, PopUpSelection, Process, PW, RefTab, Rope, Sinix, SinixOps,

TerminalIO, ViewerClasses;

SinixOpsImpl: CEDAR PROGRAM

IMPORTS CD, CDBasics, CDCells, CDDirectory, CDEnvironment, CDInstances, CDOps, CDPopUpMenus, CDProperties, CDRects, CDSatellites, CDSequencer, CDViewer, CDViewHighlight, CedarProcess, Convert, CoreClasses, CoreFlat, CoreOps, CoreGeometry, IO, PopUpMenus, PopUpSelection, Process, PW, RefTab, Rope, Sinix, TerminalIO

EXPORTS SinixOps

SHARES CoreGeometry =

BEGIN OPEN SinixOps;

Wire utilities

All arguments are canonized

SearchedOrParent: PROC [flatWires: LIST OF FlatWireRec, candidate: FlatWireRec] RETURNS [BOOL] = {

FOR fw: LIST OF FlatWireRec ← flatWires, fw.rest WHILE fw#NIL DO

IF CoreFlat.FlatWireEqualRec[fw.first, candidate] THEN RETURN [TRUE];

ENDLOOP;

FOR i: NAT IN [0 .. candidate.wire.size) DO

IF SearchedOrParent[flatWires, [flatCell: candidate.flatCell, wireRoot: candidate.wireRoot, wire: candidate.wire[i]]] THEN RETURN [TRUE];

ENDLOOP;

RETURN [FALSE];

};

Adds a flat wire to a set of flat wires.

AddFlatWire: PROC [root: CellType, flatCell: FlatCellTypeRec, wire: Wire, wireRoot: CoreFlat.WireRoot, flatWires: LIST OF FlatWireRec] RETURNS [LIST OF FlatWireRec] ={

flatWire: FlatWireRec = CoreFlat.CanonizeWire[root, [flatCell: flatCell, wireRoot: wireRoot, wire: wire]];

FOR fw: LIST OF FlatWireRec ← flatWires, fw.rest WHILE fw#NIL DO

IF CoreFlat.FlatWireEqualRec[fw.first, flatWire] THEN RETURN [flatWires];

ENDLOOP;

flatWires ← CONS [flatWire, flatWires];

FOR i: NAT IN [0 .. wire.size) DO

flatWires ← AddFlatWire[root, flatCell, wire[i], wireRoot, flatWires];

ENDLOOP;

RETURN [flatWires];

};

CD Utilities

Check that two CD instances are logically the same. We need that because instances that are highlighted are equivalent to, but not equal to, instances in non pushed in cells.

Given inInst and outInst in world coordinates, return instance of inInst if it were in outInst. The basics code for this is found in CDInstances.DeComposed. This function is necessary because cells pushed in are flattened to world coordinates, so we have to build them back.

SameCDInstance: PROC [cdinst: CD.Instance, trans: CD.Transformation, instance: CoreGeometry.Instance] RETURNS [BOOL] ~ INLINE {

RETURN [

cdinst.ob=instance.obj AND

CDBasics.DeMapPoint[cdinst.trans.off, trans]=instance.trans.off AND

CDBasics.DecomposeOrient[itemInWorld: cdinst.trans.orient, cellInWorld: trans.orient]=instance.trans.orient

];

};

SearchCoreGeometryInstance: PROC [possibleInst: CoreGeometry.Instance, instances: CD.InstanceList, design: CD.Design] RETURNS [BOOL] = {

Answer if possibleInst is one of the instances passed. The instances must be from the currently pushed-in cell.

closed: CD.Instance = design.actual.first.mightReplace;

WHILE instances#NIL DO

IF SameCDInstance[instances.first, closed.trans, possibleInst] THEN RETURN [TRUE]; -- OK

instances ← instances.rest;

ENDLOOP;

RETURN [FALSE]; -- not found

};

Highlight

HighLightInst: PUBLIC PROC [instance: CoreGeometry.Instance] RETURNS [hinstance: CD.Instance] = {

hinstance ← CDInstances.NewInst[

CDRects.CreateRect[CD.InterestSize[instance.obj], CD.shadeLayer],

[CDBasics.MapPoint[CD.InterestBase[instance.obj], instance.trans], instance.trans.orient]

];

};

HighLightListInst: PUBLIC PROC [instances: CoreGeometry.Instances] RETURNS [hinstances: CD.InstanceList ← NIL] = {

WHILE instances#NIL DO

hinstances ← CONS [HighLightInst[instances.first], hinstances]; instances ← instances.rest;

ENDLOOP;

};

HighlightDesign: PUBLIC PROC [design: CD.Design, highlight: REF] = {

bbox: CD.Rect ← CDBasics.empty;

WITH highlight SELECT FROM

hinst: CD.Instance => bbox ← CDInstances.InstRectO[hinst];

hinstlist: CD.InstanceList => bbox ← CDInstances.BoundingRectO[hinstlist];

ENDCASE => {};

-- Compiler bug???

bbox: CD.Rect ← CDBasics.empty;

bbox ← WITH highlight SELECT FROM

-- hinst: CD.Instance => CDInstances.InstRectO[hinst],

hinstlist: CD.InstanceList => CDInstances.BoundingRectO[hinstlist],

ENDCASE => CDBasics.empty;

FOR viewers: LIST OF ViewerClasses.Viewer ← CDViewer.ViewersOf[design], viewers.rest WHILE viewers#NIL DO

CDViewHighlight.ShowInstance[v: viewers.first, instOrList: highlight];

IF CDBasics.NonEmpty[bbox] THEN CDViewer.ShowAndScale[viewer: viewers.first, rect: bbox];

ENDLOOP;

};

HighlightNets: PUBLIC PROC [decoration: Decoration, design: CD.Design, instance: CD.Instance, root: CellType, flatWires: LIST OF FlatWireRec] ~ {

hinstances: CD.InstanceList ← NIL;

EachFlatWire: CoreGeometry.EachFlatWireProc = {

IF SearchedOrParent[flatWires, flatWire]

THEN hinstances ← CDInstances.AppendToList[HighLightListInst[CoreGeometry.TransformList[trans, CoreGeometry.GetGeometry[decoration, wire]]], hinstances];

};

EachFlatCell: CoreGeometry.EachFlatCellProc = {

EachPublic: CoreOps.EachWireProc = {

flatWire: FlatWireRec = IF bindings=NIL

THEN [flatCell: [], wireRoot: public, wire: wire]

ELSE NARROW [RefTab.Fetch[bindings, wire].val, FlatWire]^;

IF SearchedOrParent[flatWires, flatWire]

THEN hinstances ← CDInstances.AppendToList[HighLightListInst[CoreGeometry.TransformList[trans, CoreGeometry.GetPins[decoration, wire]]], hinstances];

};

[] ← CoreOps.VisitWireSeq[cell.public, EachPublic];

};

Leaf: CoreGeometry.LeafProc = {RETURN [IsIcon[decoration, cellType]]};

[] ← CoreGeometry.EnumerateFlatGeometry[decoration: decoration, root: root, leafProc: Leaf, eachFlatWire: EachFlatWire, eachFlatCell: EachFlatCell];

IF hinstances=NIL THEN TerminalIO.PutF["*** Nothing to highlight!\n"];

HighlightDesign[design, CDInstances.ComposedList[hinstances, instance.trans]];

};

Links between Core and ChipNDale

IsIcon: PUBLIC PROC [decoration: Decoration, cell: CellType] RETURNS [BOOL] ~ {

RETURN [CoreGeometry.HasObject[decoration, cell] AND cell.class#CoreClasses.recordCellClass]

};

ExtractCDInstance: PUBLIC PROC [instance: CD.Instance, design: CD.Design, mode: Mode] RETURNS [result: REF, props: Properties] ~ {

userData: REF = IF mode.userData#NIL THEN mode.userData[design] ELSE NIL;

[] ← CDSatellites.GetSatellites[design]; -- enforces the strong invariant in object, one level deep

CDProperties.PutInstanceProp[instance, Sinix.satellitesProp, CDSatellites.GetSatelliteRopes[instance]];

[result, props] ← Sinix.Extract[

obj: instance.ob, mode: mode, properties: instance.properties, userData: userData

];

};

ExtractCDStack: PUBLIC PROC [design: CD.Design, mode: Mode] RETURNS [instance: CD.Instance ← NIL, root: CellType ← NIL] ~ {

result: REF;

IF design.actual.rest=NIL THEN {

TerminalIO.PutF["*** No currently pushed-in cell.\n"];

RETURN;

};

FOR stack: LIST OF CD.PushRec ← design.actual, stack.rest WHILE stack.rest#NIL DO

IF stack.first.specific.changed THEN {

TerminalIO.PutF["*** Impossible to extract stack, cell %g has been changed and not saved.\n", IO.rope[CDDirectory.Name[stack.first.mightReplace.ob, design]]];

RETURN;

};

instance ← stack.first.mightReplace;

ENDLOOP;

result ← ExtractCDInstance[instance: instance, design: design, mode: mode].result;

SELECT TRUE FROM

result=NIL => TerminalIO.PutF["*** Top cell extracts to NIL.\n"];

ISTYPE[result, Wire] => TerminalIO.PutF["*** Top cell extracts to a Wire.\n"];

ISTYPE[result, Wires] => TerminalIO.PutF["*** Top cell extracts to Wires.\n"];

ENDCASE => root ← NARROW [result];

};

CDStackToPath: PUBLIC PROC [design: CD.Design, mode: Mode] RETURNS [instance: CD.Instance, root: CellType, pushed: CellType, flatPushed: FlatCellTypeRec] = {

We came from that one from a RecordCell [vertical move]

TransfUnboundFlat: CoreFlat.UnboundFlatCellProc = {

revStack: LIST OF CD.PushRec = NARROW [data];

possibleInst: CoreGeometry.Instance = [CoreGeometry.GetObject[mode.decoration, instance.type], CoreGeometry.GetTrans[mode.decoration, instance]];

IF SameCDInstance[revStack.rest.first.mightReplace, revStack.first.mightReplace.trans, possibleInst]

THEN UnboundFlat[cell, target, flatCell, instance, index, parent, flatParent, revStack.rest];

};

UnboundFlat: CoreFlat.UnboundFlatCellProc = {

revStack: LIST OF CD.PushRec = NARROW [data];

SELECT TRUE FROM

NOT CoreGeometry.HasObject[mode.decoration, cell] => CoreFlat.NextUnboundCellType[cell, target, flatCell, instance, index, parent, flatParent, data, UnboundFlat];

revStack.rest=NIL => {pushed ← cell; flatPushed ← flatCell};

cell.class=CoreClasses.recordCellClass => CoreFlat.NextUnboundCellType[cell, target, flatCell, instance, index, parent, flatParent, data, TransfUnboundFlat];

ENDCASE =>

{TerminalIO.PutF["*** Pushed-in cell is deep inside an icon.\n"]; root ← NIL};

};

revStack: LIST OF CD.PushRec ← NIL;

[instance, root] ← ExtractCDStack[design, mode];

IF root=NIL THEN RETURN;

We want to deal with deeper last

FOR stack: LIST OF CD.PushRec ← design.actual, stack.rest WHILE stack#NIL DO

revStack ← CONS [stack.first, revStack];

ENDLOOP;

revStack ← revStack.rest; -- we do not care about the top level dummy

UnboundFlat[cell: root, data: revStack];

IF root=NIL THEN RETURN; -- error already recognized

IF pushed=NIL THEN ERROR; -- somehow hierarchies differ

};

SelectedCoreObjects: PUBLIC PROC [design: CD.Design, mode: Mode, flatCellsActuals: BOOL ← FALSE] RETURNS [instance: CD.Instance, root: CellType, pushed: CellType, flatPushed: FlatCellTypeRec, flatCells: LIST OF FlatCellTypeRec ← NIL, flatWires: LIST OF FlatWireRec ← NIL] ~ {

isIcon: BOOL;

selected: CD.InstanceList ← CDInstances.OnlySelected[CDOps.InstList[design]];

IsSelectedWire: CoreOps.EachWireProc ~ {

FOR geometry: CoreGeometry.Instances ← IF isIcon THEN CoreGeometry.GetPins[mode.decoration, wire] ELSE CoreGeometry.GetGeometry[mode.decoration, wire], geometry.rest WHILE geometry#NIL DO

IF SearchCoreGeometryInstance[geometry.first, selected, design]

THEN flatWires ← AddFlatWire[root, flatPushed, wire, IF isIcon THEN public ELSE internal, flatWires];

ENDLOOP;

};

[instance, root, pushed, flatPushed] ← CDStackToPath[design, mode];

IF root=NIL THEN RETURN;

isIcon ← IsIcon[mode.decoration, pushed];

IF isIcon

THEN [] ← CoreOps.VisitWireSeq[pushed.public, IsSelectedWire]

ELSE {

rct: CoreClasses.RecordCellType = NARROW [pushed.data];

[] ← CoreOps.VisitWireSeq[rct.internal, IsSelectedWire];

FOR i: NAT IN [0 .. rct.size) DO

possibleInst: CoreGeometry.Instance = [CoreGeometry.GetObject[mode.decoration, rct[i].type], CoreGeometry.GetTrans[mode.decoration, rct[i]]];

IF NOT SearchCoreGeometryInstance[possibleInst, selected, design] THEN LOOP;

flatCells ← CONS [[path: CoreFlat.AddInstance[flatPushed.path, rct[i], pushed]], flatCells];

IF flatCellsActuals THEN FOR j: NAT IN [0 .. rct[i].actual.size) DO

flatWires ← AddFlatWire[root, flatPushed, rct[i].actual.elements[j], internal, flatWires];

ENDLOOP;

};

Implementation of ChipNDale commands

SelectedCellType: PUBLIC PROC [design: CD.Design, mode: Mode] RETURNS [instance: CD.Instance, root: CellType ← NIL, cell: CellType, flatCell: FlatCellTypeRec ← [], trans: CoreGeometry.Transformation] = {

IF design.actual.rest#NIL THEN {

pushed: CellType; flatPushed: FlatCellTypeRec;

flatCells: LIST OF FlatCellTypeRec; flatWires: LIST OF FlatWireRec;

cellInstance: CellInstance;

[instance, root, pushed, flatPushed, flatCells, flatWires] ← SelectedCoreObjects[design, mode, FALSE];

IF root=NIL THEN RETURN;

IF flatWires#NIL OR flatCells=NIL OR flatCells.rest#NIL THEN {TerminalIO.PutF["*** Select one instance only.\n"]; root ← NIL; RETURN};

flatCell ← flatCells.first;

[instance: cellInstance, cellType: cell] ← CoreFlat.ResolveFlatCellType[root, flatCell]; -- we could optimize and do better here.

trans ← CDBasics.ComposeTransform[itemInCell: CoreGeometry.GetTrans[mode.decoration, cellInstance], cellInWorld: design.actual.first.mightReplace.trans];

} ELSE {

multiple: BOOL;

result: REF;

[instance, multiple] ← CDOps.SelectedInstance[design];

IF multiple

THEN {TerminalIO.PutF["\n** Multiple instances selected. No action.\n"]; RETURN};

IF instance=NIL

THEN {TerminalIO.PutF["\n** No instance selected. No action.\n"]; RETURN};

IF instance=NIL THEN RETURN;

result ← ExtractCDInstance[instance, design, mode].result;

IF result=NIL THEN RETURN;

WITH result SELECT FROM

ct: CellType => root ← ct;

ENDCASE => {TerminalIO.PutF["\n** Not a Core cell. No action.\n"]; RETURN};

cell ← root; trans ← instance.trans;

};

HighLightWireGeometry: PROC [design: CD.Design, mode: Mode, name: ROPE, wires: LIST OF Wire] = {

IF name=NIL THEN RETURN; -- no highlight done

to be replaced by a PushByName one day

FOR insts: CD.InstanceList ← CDOps.InstList[design], insts.rest WHILE insts#NIL DO

AddGeometry: PROC [w: Wire] = {

IF CoreOps.Member[ws, w] THEN RETURN; -- to avoid infinite recursion, for example

ws ← CONS [w, ws];

FOR gs: CoreGeometry.Instances ← CoreGeometry.GetGeometry[mode.decoration, w], gs.rest WHILE gs#NIL DO

IF NOT CoreGeometry.Intersect[CD.InterestRect[insts.first.ob], gs.first] THEN LOOP;

geometry ← CONS [CoreGeometry.Transform[insts.first.trans, gs.first], geometry];

ENDLOOP;

FOR i: NAT IN [0 .. w.size) DO AddGeometry[w[i]] ENDLOOP;

};

geometry: CoreGeometry.Instances ← NIL;

ws: LIST OF Wire ← NIL;

IF NOT Rope.Equal[PW.Name[insts.first.ob], name] THEN LOOP;

WHILE wires#NIL DO AddGeometry[wires.first]; wires ← wires.rest ENDLOOP;

IF geometry=NIL THEN RETURN;

HighlightDesign[design, HighLightListInst[geometry]];

TerminalIO.PutF["Highlight of the culprits done.\n"];

ENDLOOP;

};

ExtractSelected: PROC [design: CD.Design, mode: Mode] = {

nb: INT ← 0;

HighlightDesign[design, NIL];

FOR instances: CD.InstanceList ← CDOps.InstList[design], instances.rest WHILE instances#NIL DO

result: REF;

IF NOT instances.first.selected THEN LOOP;

nb ← nb + 1;

result ← ExtractCDInstance[instance: instances.first, design: design, mode: mode !

Sinix.FusionPropMismatch => {

TerminalIO.PutF["*** Extraction failed in cell %g.\n", IO.rope[name]];

IF prop=CoreOps.nameProp

THEN TerminalIO.PutF["*** Two wires that do not have the same name are fused: %g and %g.\n", IO.rope[NARROW [value1]], IO.rope[NARROW [value2]]]

ELSE TerminalIO.PutF["*** Two wires that do not have the same %g property value are fused: %g and %g.\n", IO.atom[prop], IO.refAny[value1], IO.refAny[value2]];

GOTO Failed;

};

Sinix.FusionStructureMismatch => {

TerminalIO.PutF["*** Extraction failed in cell %g.\n *** Two wires with mismatching structures are fused: ", IO.rope[name]];

CoreOps.Print[wire1, TerminalIO.TOS[]];

TerminalIO.PutF["\nand: "];

CoreOps.Print[wire2, TerminalIO.TOS[]];

TerminalIO.PutF["\n.\n"];

HighLightWireGeometry[design, mode, name, LIST [wire1, wire2]];

GOTO Failed;

};

Sinix.StructureMismatch => {

TerminalIO.PutF["*** Extraction failed in cell %g.\n *** Actual: ", IO.rope[name]];

CoreOps.Print[actual, TerminalIO.TOS[]];

TerminalIO.PutF["\nand subPublic: "];

CoreOps.Print[subPublic, TerminalIO.TOS[]];

TerminalIO.PutF["\nhave mismatching structures for the index %g.\n", IO.int[index]];

HighLightWireGeometry[design, mode, name, LIST [actual]];

GOTO Failed;

};

Sinix.FusionByNameMismatch => {

TerminalIO.PutF["*** Extraction failed in cell %g.\n", IO.rope[name]];

TerminalIO.PutF["*** Fusion by name problem: %g.\n", IO.rope[msg]];

HighLightWireGeometry[design, mode, name, LIST [wire]];

GOTO Failed;

};

Sinix.StructuralLoop => {

TerminalIO.PutF["*** Extraction failed in cell %g.\n", IO.rope[name]];

TerminalIO.PutF["*** Probably a structural loop in wire: %g.\n", IO.rope[CoreOps.GetShortWireName[wire]]];

HighLightWireGeometry[design, mode, name, LIST [wire]]; -- be careful not to be recursive!

GOTO Failed;

};

].result;

IF result=NIL

THEN TerminalIO.PutF["*** Extraction returned NIL"]

ELSE CoreOps.Print[ref: result, out: TerminalIO.TOS[], level: LAST [NAT]];

TerminalIO.PutF["\n"];

ENDLOOP;

IF nb=0 THEN TerminalIO.PutF["*** No instance selected.\n"];

IF nb>1 THEN TerminalIO.PutF["%g instances extracted.\n", IO.int[nb]];

EXITS Failed => RETURN;

};

HighlightMenu: PROC [design: CD.Design, mode: Mode] ~ {

HighlightDesign[design, NIL];

SELECT PopUpSelection.Request["Highlight nets", LIST ["Highlight selected nets", "Highlight named wire in selected cell", "Highlight all wires of selected cell", "Highlight all pins of selected cell"], "Controls highlight", LIST ["corresponding to selected instance", "asks for a CoreFlat name"]] FROM

1 => {

instance: CD.Instance; root: CellType; pushed: CellType; flatPushed: FlatCellTypeRec;

flatCells: LIST OF FlatCellTypeRec; flatWires: LIST OF FlatWireRec;

[instance, root, pushed, flatPushed, flatCells, flatWires] ← SelectedCoreObjects[design, mode, TRUE];

IF root=NIL THEN RETURN;

IF flatWires=NIL THEN {TerminalIO.PutF["*** No wire selected.\n"]; RETURN};

IF flatCells#NIL THEN TerminalIO.PutF["Cell instances selected: corresponding actuals are highlighted.\n"];

TerminalIO.PutF["The following wires have been selected:\t"];

FOR fw: LIST OF FlatWireRec ← flatWires, fw.rest WHILE fw#NIL DO

TerminalIO.PutF["\t%g", IO.rope[CoreFlat.WirePathRope[root, fw.first]]];

ENDLOOP;

TerminalIO.PutF["\n"];

HighlightNets[mode.decoration, design, instance, root, flatWires];

};

2 => {

instance: CD.Instance; root: CellType; cell: CellType; flatCell: FlatCellTypeRec;

name: ROPE; quit: BOOL ← FALSE;

flatWire: FlatWireRec;

[instance, root, cell, flatCell] ← SelectedCellType[design, mode];

IF root=NIL THEN RETURN;

name ← TerminalIO.RequestRope["enter wire name relative to selected cell: " ! TerminalIO.UserAbort => {quit ← TRUE}];

IF quit THEN RETURN;

flatWire ← CoreFlat.ParseWirePath[root, Rope.Cat[CoreFlat.CellTypePathRope[root, flatCell], name] ! CoreFlat.PathError => {TerminalIO.PutF["*** Could not find wire `%g' : %g.\n", IO.rope[name], IO.rope[msg]]; quit ← TRUE; CONTINUE}];

IF quit THEN RETURN;

HighlightNets[mode.decoration, design, instance, root, LIST [CoreFlat.ParseWirePath[root, Rope.Cat[CoreFlat.CellTypePathRope[root, flatCell], name]]]];

};

3 => {

HighlightWire: CoreOps.EachWireProc = {

hinstances ← CDInstances.AppendToList[HighLightListInst[CoreGeometry.GetGeometry[mode.decoration, wire]], hinstances];

};

instance: CD.Instance; root: CellType; cell: CellType; flatCell: FlatCellTypeRec; trans: CoreGeometry.Transformation;

hinstances: CD.InstanceList ← NIL;

[instance, root, cell, flatCell, trans] ← SelectedCellType[design, mode];

IF root=NIL THEN RETURN;

IF cell.class#CoreClasses.recordCellClass THEN {TerminalIO.PutF["*** Only applicable to record cells!\n"]; RETURN};

[] ← CoreOps.VisitWireSeq[NARROW [cell.data, CoreClasses.RecordCellType].internal, HighlightWire];

HighlightDesign[design, CDInstances.ComposedList[hinstances, trans]];

};

4 => {

HighlightWire: CoreOps.EachWireProc = {

hinstances ← CDInstances.AppendToList[HighLightListInst[CoreGeometry.GetPins[mode.decoration, wire]], hinstances];

};

instance: CD.Instance; root: CellType; cell: CellType; flatCell: FlatCellTypeRec; trans: CoreGeometry.Transformation;

hinstances: CD.InstanceList ← NIL;

[instance, root, cell, flatCell, trans] ← SelectedCellType[design, mode];

IF root=NIL THEN RETURN;

[] ← CoreOps.VisitWireSeq[cell.public, HighlightWire];

HighlightDesign[design, CDInstances.ComposedList[hinstances, trans]];

};

ENDCASE => {};

};

CDSequencer commands

ExtractLayoutCommand: PROC [command: CDSequencer.Command] ~ {

inner: PROC = {

technology: CD.Technology = command.design.technology;

mode: Mode = NARROW [CDProperties.GetProp[technology, $ExtractMode]];

IF mode#NIL

THEN ExtractSelected[command.design, mode]

ELSE TerminalIO.PutF["No extraction mode for technology %g.\n", IO.atom[technology.key]];

};

Silly line, just because CD does not do the right thing!

CDEnvironment.DoWithWDir[CDEnvironment.GetWorkingDirectory[command.design], inner];

};

HighlightLayoutCommand: PROC [command: CDSequencer.Command] ~ {

inner: PROC = {

technology: CD.Technology = command.design.technology;

mode: Mode = NARROW [CDProperties.GetProp[technology, $ExtractMode]];

IF mode#NIL

THEN HighlightMenu[command.design, mode]

ELSE TerminalIO.PutF["No extraction mode for technology %g.\n", IO.atom[technology.key]];

};

Silly line, just because CD does not do the right thing!

CDEnvironment.DoWithWDir[CDEnvironment.GetWorkingDirectory[command.design], inner];

};

ExtractCommand: PROC [command: CDSequencer.Command] ~ {

inner: PROC = {

mode: Mode = NARROW [CDProperties.GetProp[command.key, $ExtractMode]];

IF mode#NIL THEN ExtractSelected[command.design, mode] ELSE ERROR;

};

Silly line, just because CD does not do the right thing!

CDEnvironment.DoWithWDir[CDEnvironment.GetWorkingDirectory[command.design], inner];

};

HighlightCommand: PROC [command: CDSequencer.Command] ~ {

inner: PROC = {

mode: Mode = NARROW [CDProperties.GetProp[command.key, $ExtractMode]];

IF mode#NIL THEN HighlightMenu[command.design, mode] ELSE ERROR;

};

Silly line, just because CD does not do the right thing!

CDEnvironment.DoWithWDir[CDEnvironment.GetWorkingDirectory[command.design], inner];

};

Registration of extract modes

RegisterDefaultLayoutMode: PUBLIC PROC [mode: Mode, technology: CD.Technology] ~ {

IF technology=NIL THEN ERROR;

CDProperties.PutProp[technology, $ExtractMode, mode];

};

GetExtractMode: PUBLIC PROC [tech: REF] RETURNS [mode: Mode ← NIL] ~ {

WITH tech SELECT FROM

technology: CD.Technology => mode ← NARROW [CDProperties.GetProp[technology, $ExtractMode]];

key: ATOM => {

technology: CD.Technology = CD.FetchTechnology[key];

mode ← NARROW [CDProperties.GetProp[

IF technology#NIL THEN technology ELSE key,

$ExtractMode]];

};

ENDCASE => {};

};

RegisterModeCommands: PUBLIC PROC [mode: Mode, technology: CD.Technology ← NIL] ~ {

name: ROPE = mode.decoration.name;

menu: PopUpMenus.Menu = CDPopUpMenus.GetMenu[$OtherProgramMenu, TRUE];

extractKey: ATOM = Convert.AtomFromRope[Rope.Cat[name, "ExtractCommand"]];

highlightKey: ATOM = Convert.AtomFromRope[Rope.Cat[name, "HighlightCommand"]];

[] ← CDProperties.RegisterProperty[extractKey, $SinixOps];

[] ← CDProperties.RegisterProperty[highlightKey, $SinixOps];

CDProperties.PutProp[extractKey, $ExtractMode, mode];

CDProperties.PutProp[highlightKey, $ExtractMode, mode];

[] ← PopUpMenus.Entry[menu, Rope.Cat[name, ": extract"], NIL, extractKey, "calls extractor"];

[] ← PopUpMenus.Entry[menu, Rope.Cat[name, ": highlight"], NIL, highlightKey, "highlight submenu"];

CDSequencer.ImplementCommand[key: extractKey, technology: technology, proc: ExtractCommand, queue: doQueue];

CDSequencer.ImplementCommand[key: highlightKey, technology: technology, proc: HighlightCommand, queue: doQueue];

};

Background Extraction [Out of order]

CDSequencer.ImplementCommand[key: $BackgroundLayoutExtraction, proc: BackgroundLayoutCommand, queue: doQueue];

RegisterBackgroundExtractionCommand: PUBLIC PROC [technology: CD.Technology, mode: Mode, prompt: ROPE, key: ATOM, filter: FilterProc] = {

[] ← CDProperties.RegisterProperty[key, $SinixOps];

CDProperties.PutProp[key, $ExtractMode, mode];

CDProperties.PutProp[key, $SinixBackgroundFilter, NEW [FilterProc ← filter]];

CDMenus.ImplementEntryCommand[menu: $OtherProgramMenu, entry: prompt, p: BackgroundExtractionCommand, key: key, technology: technology];

};

BackgroundLayoutCommand: PROC [command: CDSequencer.Command] ~ {

mode: Mode = NARROW [CDProperties.GetProp[command.design.technology, $ExtractMode];

IF mode#NIL THEN HighlightMenu[command.design, mode];

};

BackgroundExtractionCommand: PROC [command: CDSequencer.Command] ~ {

mode: Mode = NARROW [CDProperties.GetProp[command.key, $ExtractMode]];

refFilter: REF FilterProc ← NARROW [CDProperties.GetProp[command.key, $SinixBackgroundFilter]];

IF mode#NIL THEN BackgroundMenu[command.key, command.design, mode, IF refFilter=NIL THEN NIL ELSE refFilter^];

};

A property is stored on the design: the key is the key parameter (name of the command), and the value is the process doing background extraction.

BackgroundMenu: PROC [key: ATOM, design: CD.Design, mode: Mode, filter: FilterProc] ~ {

SELECT TerminalIO.RequestSelection["Background Extraction", LIST ["Start", "Stop"], "Controls Background Extraction", LIST ["Starts Background Extraction", "Stops Background Extraction"]] FROM

1 => {

IF CDProperties.GetDesignProp[design, key]#NIL THEN {TerminalIO.PutF["*** Background extraction already started for this design\n"]; RETURN};

CDProperties.PutDesignProp[design, key, CedarProcess.Fork[action: ExtractProcess, data: NEW [ProcessDataRec ← [design: design, key: key, mode: mode, filter: filter]], options: [priority: background, usePriority: TRUE]]];

TerminalIO.PutF["Background extraction started for this design\n"];

};

2 => {

process: CedarProcess.Process = NARROW [CDProperties.GetDesignProp[design, key]];

IF process=NIL THEN {TerminalIO.PutF["*** Background extraction was not started for this design\n"]; RETURN};

CedarProcess.Abort[process];

CDProperties.PutDesignProp[design, key, NIL];

TerminalIO.PutF["Background extraction stopped for this design\n"];

};

ENDCASE => RETURN;

};

ProcessData: TYPE = REF ProcessDataRec;

ProcessDataRec: TYPE = RECORD [design: CD.Design, key: ATOM, mode: Mode, filter: FilterProc];

This process tries to extract all instances in the design

ExtractProcess: CedarProcess.ForkableProc = {

processData: ProcessData ← NARROW [data];

DO -- forever

CedarProcess.CheckAbort[];

IF CDProperties.GetDesignProp[processData.design, processData.key]=NIL THEN RETURN; -- no necessary, logically. Just for safety!

FOR instances: CD.InstanceList ← CDOps.InstList[processData.design], instances.rest WHILE instances#NIL DO

CedarProcess.CheckAbort[];

IF CDProperties.GetDesignProp[processData.design, processData.key]=NIL THEN RETURN; -- not necessary, logically. Just for safety!

IF NOT CDCells.IsCell[instances.first.ob] OR NOT processData.filter[processData.design, CDDirectory.Name[instances.first.ob, processData.design], instances.first.ob] THEN LOOP;

[] ← ExtractCDInstance[instances.first, processData.design, processData.mode ! ABORTED => GOTO Aborted; ANY => CONTINUE];

Process.Yield[];

Process.Pause[Process.MsecToTicks[100]];

ENDLOOP;

Process.Pause[Process.MsecToTicks[500]];

ENDLOOP;

EXITS Aborted => RETURN;

};

FilterProc: TYPE = PROC [design: CD.Design, name: ROPE, object: CD.Object] RETURNS [extract: BOOL];

RegisterBackgroundExtractionCommand: PROC [technology: CD.Technology, mode: Mode, key: ATOM, filter: FilterProc];

Create a menu entry for starting/stopping background extraction of filtered objects. If technology is NIL, the entry will be valid for ALL technologies.

Initialization

CDSequencer.ImplementCommand[key: $ExtractLayout, proc: ExtractLayoutCommand, queue: doQueue];

CDSequencer.ImplementCommand[key: $HighlightNetInLayout, proc: HighlightLayoutCommand, queue: doQueue];

[] ← CDProperties.RegisterProperty[$ExtractMode, $SinixOps];

[] ← CDProperties.RegisterProperty[$ExtractLayout, $SinixOps];

[] ← CDProperties.RegisterProperty[$HighlightNetInLayout, $SinixOps];

[] ← CDProperties.RegisterProperty[$SinixBackgroundFilter, $SinixOps];

END.