[_CD4_]<datools7.0>CDNMosA25>ChipmonkNmosRead.mesa!4

ChipmonkNMosRead.mesa

Last Edited by: Kimr, October 26, 1983 9:39 am

Last Edited by: Jacobi, October 25, 1983 12:48 pm

Last Edited by: Jacobi, March 25, 1986 5:06:39 pm PST

Last edited by: Christian Jacobi, October 31, 1986 2:28:05 pm PST

copy from cmos to nmos, not inverse!

DIRECTORY

Atom USING [MakeAtom],

Basics USING [BITAND, BITSHIFT],

CD,

CDInstances,

CDBasics,

CDBusCells USING [CreateBusCell],

CDCells,

CDDirectory USING [Include],

CDIO,

CDOps,

CDProperties,

CDRects USING [CreateRect],

CDRepetitions,

CDSequencer,

CDTexts,

CDViewer,

Commander USING [CommandProc, Register],

CommandTool,

FS,

IO,

NMos,

NMosContacts,

NMosTransistors,

Rope USING [ROPE, Cat, IsEmpty, FromChar],

TerminalIO,

ViewerClasses USING [Viewer];

ChipmonkNMosRead: CEDAR MONITOR

IMPORTS Atom, Basics, CD, CDInstances, CDBasics, CDBusCells, CDCells, CDDirectory, CDIO, CDOps, CDProperties, CDRects, CDRepetitions, CDSequencer, CDTexts, CDViewer, Commander, CommandTool, FS, IO, NMos, NMosContacts, NMosTransistors, Rope, TerminalIO

SHARES CDProperties =

BEGIN

TransformSelected: PROC [design: CD.Design, transform: CD.Orientation, base: CD.Rect←[0, 0, -1, -1]] = {

ib, is, orientOff: CD.Position; r, oldbb: CD.Rect; oldPseudoCellT, newPseudoCellT: CD.Transformation;

sel: CD.InstanceList = CDInstances.OnlySelected[CDOps.InstList[design]];

IF sel=NIL THEN RETURN;

oldbb ← CDInstances.BoundingRectO[sel];

IF ~CDBasics.NonEmpty[base] THEN base ← CDInstances.BoundingRectI[sel];

ib ← CDBasics.BaseOfRect[base];

is ← CDBasics.SizeOfRect[base];

oldPseudoCellT ← [ib, original];

r ← CDBasics.MapRect[CDBasics.RectAt[[0,0], is], [[0,0], transform]];

orientOff ← CDBasics.BaseOfRect[r];

newPseudoCellT ← [CDBasics.SubPoints[ib, orientOff], transform];

FOR w: CD.InstanceList ← sel, w.rest WHILE w#NIL DO

pseudoCellRel: CD.Transformation ← CDBasics.DecomposeTransform[w.first.trans, oldPseudoCellT];

w.first.trans ← CDBasics.ComposeTransform[pseudoCellRel, newPseudoCellT]

ENDLOOP;

CDOps.Redraw[design, oldbb];

CDOps.Redraw[design, CDBasics.MapRect[CDBasics.DeMapRect[oldbb, oldPseudoCellT], newPseudoCellT]]

};

-- global constants

lambdaInChipmonk: INTEGER = 2;

--In Chipndale we must make no assumptions about the

--value of lambda. It can (and does) change from time to time;

--but we know that chipndales lambda is >= 2

lambdaFactor: INT = NMos.lambda/lambdaInChipmonk;

instance: INTEGER = 1;

transistor: INTEGER = 2;

contact: INTEGER = 3;

wire: INTEGER = 4;

rectangle: INTEGER = 5;

text: INTEGER = 6;

bus: INTEGER = 7;

repeat: INTEGER = 8;

contTypALen: INTEGER = 12;

maxCellNum: INTEGER = 1500;

codeWordForDataFile : CARDINAL = 123751B;

debugging: BOOLEAN = FALSE;

debug: BOOLEAN = FALSE;

atomTableSize: INTEGER = 256;

contTypA: ARRAY [1..contTypALen] OF contType = [

mDif, mPol, butt, burr,

mm2, mDif, mDif, mm2,

mm2, mm2, mm2, difShort

];

contLevel: ARRAY [1..contTypALen] OF CD.Layer = [

NMos.dif, NMos.pol, NMos.dif, NMos.dif,

NMos.met2, NMos.dif, --NMos.nwelCont-- CD.errorLayer, NMos.dif,

NMos.pol, NMos.dif, NMos.dif, NMos.dif

]; -- for versions < 6

fileLevel: ARRAY [0..15] OF CD.Layer = [

NMos.cut, NMos.dif, NMos.pol, NMos.met,

NMos.imp, NMos.ovg, NMos.bur, CD.errorLayer --snerd-- ,

NMos.cut2, CD.errorLayer--pdif--,

CD.errorLayer--pwelcont--, NMos.met2,

CD.errorLayer--pwel--, CD.errorLayer--NMos.nwel--,

CD.errorLayer--NMos.nwelCont--, CD.errorLayer --NOcOL--

];

-- global vars

contType: TYPE = {burr, mDif, difShort, butt, mPol, mm2};

design: CD.Design;

cellNameA: REF ARRAY [0..maxCellNum] OF CD.Object ← NEW[ARRAY [0..maxCellNum] OF CD.Object];

atomTable: REF ARRAY [1..atomTableSize] OF ATOM ← NEW[ARRAY [1..atomTableSize] OF ATOM];

standardFont: CDTexts.CDFont = CDTexts.MakeFont[name: "Xerox/TiogaFonts/Tioga10"];

chipfile: IO.STREAM;

fileName: Rope.ROPE;

errs: INT 𡤀

NotYetImpl: PROC [] = {

errs ← errs+1;

TerminalIO.PutRope["?"];

};

BadObject: PROC [size: CD.Position ← [4, 4]] RETURNS [CD.Object] = {

RETURN [CDRects.CreateRect[size, CD.errorLayer]]

};

InWord: PROC RETURNS [INTEGER] = {

highbyte: CARDINAL = LOOPHOLE[IO.GetChar[chipfile], CARDINAL];

lowbyte: CARDINAL = LOOPHOLE[IO.GetChar[chipfile], CARDINAL];

RETURN [ LOOPHOLE[(256*highbyte) + lowbyte, INTEGER] ];

};

FileFormat: ERROR = CODE;

Lambda: PROCEDURE [i: INT] RETURNS [CD.Number] = INLINE {

RETURN [lambdaFactor*i]

};

InOrientation: PROC [] RETURNS [CD.Orientation] = INLINE {

i: INTEGER = InWord[];

IF i>=0 AND i<=15 THEN RETURN [VAL[i/4*2 + i MOD 2]] --different representation

ELSE ERROR FileFormat;

};

ToLayer: PROC [i: INTEGER] RETURNS [CD.Layer] = INLINE {

IF i>= 0 AND i<= 15 THEN RETURN [fileLevel[i]]

ELSE ERROR FileFormat;

};

InLayer: PROC [] RETURNS [CD.Layer] = INLINE {

RETURN [ToLayer[InWord[]]]

};

NewCellName: PROC [index: INTEGER] RETURNS [cellName: Rope.ROPE] = {

cellName ← IO.PutFR[ "cell#%d", IO.int[index]];

};

InObject: PROC[version: INTEGER] RETURNS [obj: CD.Object, instProp: REF←NIL, instVal: REF←NIL] =

BEGIN

j, k, w, l, we, le, dumsur : INTEGER;

kk: CARDINAL;

lev: CD.Layer;

dumrope: Rope.ROPE;

IF debugging OR debug THEN

TerminalIO.PutRope[" (Include new object ... "];

j ← InWord[];

SELECT j FROM

instance => {

k ← InWord[]; -- cell ID num

obj ← cellNameA[k];

};

transistor =>

BEGIN

impl: NMosTransistors.Implant ← NMosTransistors.enhancement;

aExt: CD.Number ← 0;

w ← InWord[];

l ← InWord[];

kk ← LOOPHOLE[InWord[]];

IF version > 4 AND LOOPHOLE[Basics.BITAND[kk, 10000B], CARDINAL] # 0 THEN

dumsur ← InWord[];

IF LOOPHOLE[Basics.BITAND[kk, 20000B], CARDINAL] # 0 THEN

aExt ← Lambda[InWord[]]; -- if angle get angle ext.

IF LOOPHOLE[Basics.BITAND[kk, 100000B], CARDINAL]#0 THEN {

IF version>7 THEN impl ← InWord[] ELSE impl ← LAST[NMosTransistors.Implant]

};

we ← Basics.BITAND[Basics.BITSHIFT[kk, -6], 77B];

le ← Basics.BITAND[kk, 77B];

--lev ← IF Basics.BITAND[kk, 10000B] # LOOPHOLE[0] THEN NMos.pdif ELSE NMos.dif;

obj ← SELECT TRUE FROM

LOOPHOLE[Basics.BITAND[kk,40000B], CARDINAL] #0 =>

NMosTransistors.CreatePullUp[Lambda[w], Lambda[l], Lambda[we], Lambda[le]],

LOOPHOLE[Basics.BITAND[kk, 20000B], CARDINAL] #0 =>

NMosTransistors.CreateAngleTransistor[

w: Lambda[w], l: Lambda[l],

wExt: Lambda[we], lExt: Lambda[le], aExt: aExt,

implant: impl

],

ENDCASE =>

NMosTransistors.CreateTransistor[

w: Lambda[w], l: Lambda[l],

wExt: Lambda[we], lExt: Lambda[le],

implant: impl

];

END;

contact =>

BEGIN

j: CARDINAL ← LOOPHOLE[InWord[]]; -- get contact type

kk: CARDINAL ← Basics.BITAND[j, 37B]; -- get contact type

l: CARDINAL ← Basics.BITSHIFT[j, -8];

lev ← IF version > 5 THEN InLayer[] ELSE contLevel[kk];

IF version > 4 THEN dumsur ← LOOPHOLE[InWord[]];

SELECT contTypA[kk] FROM

mPol => obj ← NMosContacts.CreatePolyCon[Lambda[l]];

mDif => obj ← NMosContacts.CreateDifCon[Lambda[l]];

butt => obj← NMosContacts.CreateButCon[];

burr => BEGIN

w ← LOOPHOLE[InWord[]];

kk ← LOOPHOLE[InWord[]];

j ← Basics.BITSHIFT[kk, -8];

obj ← NMosContacts.CreateBurCon[Lambda[w], Lambda[l], Lambda[j], Lambda[LOOPHOLE[Basics.BITAND[kk, 37B], CARDINAL]]];

END;

mm2 => obj ← NMosContacts.CreateMmCon[Lambda[l], 0, 0];

ENDCASE => ERROR;

END;

wire =>

BEGIN

i: INTEGER;

w ← InWord[];

l ← InWord[];

i ← InWord[];

lev ← ToLayer[i];

SELECT i FROM

7 => {instVal ← $snerdRect; instProp ← $SignalName};

15 => {instVal ← $NOcOLRect; instProp ← $SignalName};

ENDCASE => NULL;

obj ← CDRects.CreateRect[[Lambda[w],Lambda[l]], lev];

END;

rectangle =>

BEGIN

i: INTEGER;

w ← InWord[];

l ← InWord[];

instVal ← $Rect;

instProp ← $CDxChipmonkThinks;

i ← InWord[];

lev ← ToLayer[i];

SELECT i FROM

7 => {instVal ← $snerdRect; instProp ← $SignalName};

15 => {instVal ← $NOcOLRect; instProp ← $SignalName};

ENDCASE => NULL;

obj ← CDRects.CreateRect[[Lambda[w], Lambda[l]], lev];

END;

text => {

dumrope ← InString[];

obj ← CDTexts.Create[dumrope, standardFont]

};

bus =>

BEGIN

w: CD.Number = Lambda[InWord[]];

l: CD.Number = Lambda[InWord[]];

lev: CD.Layer = InLayer[];

spacing: CD.Number = Lambda[InWord[]];

topInc: CD.Number = Lambda[InWord[]];

botInc: CD.Number = Lambda[InWord[]];

obj ← CDBusCells.CreateBusCell[

design: design,

sizeOfFirst: [w, l],

lev: lev,

offset: [spacing, topInc],

lengIncrement: botInc-topInc

]; -- compare: obj ← Chipmonk.makeBus[l, w, lev, count, spacing, topInc, botInc];

END;

repeat =>

BEGIN

rob: CD.Object = InObject[version].obj;

ignoredw: INT = InWord[]; -- ignored

ignoredl: INT = InWord[]; -- ignored

dx: CD.Number = Lambda[InWord[]];

dy: CD.Number = Lambda[InWord[]];

orient: CD.Orientation ← InOrientation[];

obj ← CDRepetitions.CreateRepetition[design: design, ob: rob, count: count, offset: [dx, dy], orientation: orient];

END;

ENDCASE => {

obj ← BadObject[];

TerminalIO.PutRope["** Erronous object\n"];

};

IF debugging OR debug THEN

TerminalIO.PutRope[" done) \n"];

END; -- of InObject

InList: PROC[ver: INTEGER] RETURNS [list: CD.InstanceList ← NIL, length: INT] =

BEGIN

instProp: REF ← NIL;

instVal: REF ← NIL;

instCount: INTEGER;

inst: CD.Instance;

ob: CD.Object;

location: CD.Position;

orientation: CD.Orientation;

IF debugging OR debug THEN TerminalIO.PutRope["start list\n"];

instCount ← InWord[];

FOR iNum: INTEGER IN [0..instCount) DO

location.x ← Lambda[InWord[]];

location.y ← Lambda[InWord[]];

orientation ← InOrientation[];

[ob, instProp, instVal] ← InObject[ver];

IF ob=NIL THEN {

ob ← BadObject[];

TerminalIO.PutRope["nil object\n"]

};

inst ← CDInstances.NewInst[ob: ob];

inst.trans ← CDOps.FitObjectI[ob, location, orientation];

list ← CONS[inst, list];

IF instProp#NIL THEN CDProperties.PutInstanceProp[inst, instProp, instVal];

IF ver > 3 THEN

BEGIN

propCount: INTEGER = InWord[];

FOR propNum: INTEGER IN [0..propCount) DO

InProp[inst];

ENDLOOP;

END;

ENDLOOP;

RETURN[list, instCount];

END;

sigName: ATOM = Atom.MakeAtom["SIGNAL NAME"];

InProp: PROC [inst: CD.Instance] = {

kind: INTEGER ← InWord[];

value: REF;

SELECT kind FROM

1 => {

IF inst=NIL OR inst.ob=NIL OR ISTYPE[inst.ob.specific, CD.RectSpecific] THEN

name ← $SignalName

ELSE name ← $InstanceName;

value ← InString[];

};

2 => {

name ← InAtom[];

value ← InAtom[];

IF name=sigName THEN name ← $SignalName;

};

ENDCASE => {

name ← NIL;

TerminalIO.PutRope["** unknown property kind\n"];

};

IF name#NIL AND inst#NIL AND inst.ob#NIL THEN

CDProperties.PutProp[onto: inst, prop: name, val: value]

};

InAtom: PROC [] RETURNS[a: ATOM] = {

i: INTEGER ← InWord[];

IF i<0 THEN {

a ← atomTable[-i]

}

ELSE IF i>0 THEN {

a ← Atom.MakeAtom[InString[]];

IF i <= atomTableSize THEN atomTable[i] ← a

ELSE TerminalIO.PutRope["** atom table code wrong\n"];

}

ELSE {

TerminalIO.PutRope["** atom code wrong\n"];

a ← NIL

}

};

InString: PROC [] RETURNS[s: Rope.ROPE] = {

j, len: CARDINAL;

flg: BOOLEAN;

j ← LOOPHOLE[InWord[]];

len ← Basics.BITSHIFT[j, -8];

IF len = 0 THEN BEGIN s ← ""; RETURN; END;

flg ← TRUE;

FOR i: CARDINAL IN [0..len) DO

IF flg THEN

s ← Rope.Cat[s, Rope.FromChar[LOOPHOLE[Basics.BITAND[j, 377B], CHAR]]]

ELSE {

j ← LOOPHOLE[InWord[]];

s ← Rope.Cat[s, Rope.FromChar[LOOPHOLE[Basics.BITSHIFT[j, -8], CHAR]]];

};

flg ← NOT flg;

ENDLOOP;

};

FileOpened: PROC [name: Rope.ROPE] RETURNS [fileWasOpened: BOOLEAN] = {

IF Rope.IsEmpty[name] THEN name ← TerminalIO.RequestRope["Input file > "];

fileName ← CDIO.MakeName[name, "chip"];

chipfile ← FS.StreamOpen[fileName ! FS.Error =>

IF error.group#bug THEN {

TerminalIO.PutRopes[fileName, " not opened: ", error.explanation];

TerminalIO.PutRope["\n"];

GOTO FileName

}];

TerminalIO.PutRopes["File being read is ", fileName, "\n"];

fileWasOpened ← TRUE;

EXITS

FileName => {fileWasOpened ← FALSE};

};

signal: SIGNAL = CODE;

ReadChip: PROC =

BEGIN

ENABLE {

FileFormat => {

TerminalIO.PutRope["\n**File-Format error [proceed does not clobber other designs]\n"];

SIGNAL signal;

GOTO IOError;

};

IO.EndOfStream => {

TerminalIO.PutRope["\n**end of stream error [proceed does not clobber other designs]\n"];

SIGNAL signal;

GOTO IOError;

};

IO.Error => {

TerminalIO.PutRope["\n**io error[proceed does not clobber other designs]\n"];

--if you are debugging here: inspect "ec"

SIGNAL signal;

GOTO IOError;

};

i, j, k, ver, cCnt, dummy, depht: INTEGER;

leng: INT;

ss: Rope.ROPE;

cob: CD.Object;

cellSpecific: CD.CellSpecific;

errs𡤀

i ← InWord[];

IF i # LOOPHOLE[codeWordForDataFile, INTEGER] AND

NOT TerminalIO.Confirm["doesn't look like a .chip file -- should program continue?"] THEN RETURN;

ver ← InWord[];

cCnt ← InWord[];

IF cCnt > maxCellNum THEN CDSequencer.Quit["Too many different kinds of cells in design...aborting read\n"];

IF ver < 3 THEN CDSequencer.Quit[" Version number too low...aborting read\n"];

IF ver>8 THEN CDSequencer.Quit[" new chipmonk version unknown to chipndale...aborting read\n"];

FOR j IN [0..cCnt] DO

cellNameA[j] ← CDCells.CreateEmptyCell[];

ENDLOOP;

TerminalIO.PutRope["Starting cell directory\n"];

FOR k IN [1..cCnt] DO

j ← InWord[];

cob ← cellNameA[j];

ss ← InString[];

--cob.size.x--[] ← Lambda[InWord[]];

--cob.size.y--[] ← Lambda[InWord[]];

dummy ← InWord[];

cellSpecific ← NARROW[cob.specific, CD.CellSpecific];

[cellSpecific.contents, leng] ← InList[ver];

IF NOT Rope.IsEmpty[ss] THEN name ← ss

ELSE name ← NewCellName[k];

[] ← CDDirectory.Include[design: design, object: cob, name: name, fiddle: TRUE];

IF CDCells.IsEmpty[cob] THEN {

TerminalIO.PutRopes["** empty cell ", CD.Describe[cob, NIL, design], "\n"];

cellSpecific.contents ← LIST[CDInstances.NewInst[BadObject[]]];

};

[] ← CDCells.ResizeCell[NIL, cob];

CDCells.SetSimplificationTreshhold[cob];

ENDLOOP;

TerminalIO.PutRope["finished cell directory\n"];

depht ← IF ver<7 THEN 0 ELSE InWord[];

IF depht>0 THEN {

TerminalIO.PutRope["***design was pushed in; not read in correctly\n"];

RETURN;

};

IF ver>=7 THEN {

fileChangeCode: INTEGER = InWord[];

};

design.actual.first.specific.contents ← InList[ver].list;

design.name ← fileName;

TerminalIO.PutRope["Finished reading chip\n"];

IF errs>0 THEN {

TerminalIO.PutF1[" %g unknown objects\n", [integer[errs]]];

errs ← 0;

};

IO.Close[chipfile];

EXITS

IOError => {TerminalIO.PutRope[" proceed; discard this design\n"];};

END; -- of ReadChip

CommandReadChip: ENTRY Commander.CommandProc =

BEGIN

ENABLE {

TerminalIO.UserAbort => GOTO UserAbrt;

UNWIND => NULL;

};

list: LIST OF Rope.ROPE;

length: NAT;

[list, length] ← CommandTool.ParseToList[cmd];

IF length=0 THEN name←NIL

ELSE IF length=1 THEN name←list.first

ELSE {

result←$Failure;

msg←"unknown arguments";

RETURN

};

design← CDOps.CreateDesign[NMos.nmos];

IF FileOpened[name] THEN {

ReadChip[];

CDOps.DeselectAll[design: design, setSelection: TRUE];

TransformSelected[design, rotate180X];

CDOps.DeselectAll[design];

[] ← CDViewer.CreateViewer[design];

};

EXITS

UserAbrt => {TerminalIO.PutRope["read aborted\n"]};

END;

Commander.Register[

key: "CDReadNMos",

proc: CommandReadChip,

doc: "Reads old nmos Chipmonk file"

];

Commander.Register[

key: "CDReadNMosA",

proc: CommandReadChip,

doc: "Reads old nmos Chipmonk file"

];

Commander.Register[

key: "CDReadCMNMos",

proc: CommandReadChip,

doc: "Reads old nmos Chipmonk file"

];

Commander.Register[

key: "CDReadCMNMosA",

proc: CommandReadChip,

doc: "Reads old nmos Chipmonk file"

];

END.