LichenFromExt2Impl.Mesa
Last tweaked by Mike Spreitzer on February 1, 1988 3:15:12 pm PST
DIRECTORY AbSets, Asserting, Atom, Basics, BasicTime, BiRels, Histograms, IntStuff, IO, LichenArrayStuff, LichenDataOps, LichenDataStructure, LichenFromExtPrivate, RefTab, RefText, Rope, SetBasics;
LichenFromExt2Impl:
CEDAR
MONITOR
LOCKS dr USING dr: DesignReading
IMPORTS AbSets, Asserting, Atom, BasicTime, BiRels, Histograms, IntStuff, IO, LichenArrayStuff, LichenDataOps, LichenDataStructure, LichenFromExtPrivate, RefTab, RefText, Rope, SetBasics
EXPORTS LichenFromExtPrivate
=
BEGIN OPEN Asserting, LichenDataOps, LichenArrayStuff, LichenDataStructure, LichenFromExtPrivate, Sets:AbSets;
fromExtClass: CellClass ← NEW [CellClassPrivate ← []];
PrintImpossibles:
PROC [to:
IO.
STREAM, dr: DesignReading] = {
FOR ims: ImpossibleMergeList ← dr.impossibleMerges, ims.rest
WHILE ims #
NIL
DO
im: ImpossibleMerge = ims.first;
to.PutF["%g: %g & %g\n", [rope[Describe[im.arrayInstance, dr.design]]], [rope[FmtPath[im.path1]]], [rope[FmtPath[im.path2]]]];
ENDLOOP;
};
FinishWaitingMerges:
PUBLIC
PROC [cr: CellReading] = {
DO
progress: BOOL ← FALSE;
wml: PathPairList ← cr.waitingMerges;
cr.waitingMerges ← NIL;
FOR wml ← wml, wml.rest
WHILE wml #
NIL
DO
progress ← MergeWork[cr, wml.first.p1, wml.first.p2] OR progress;
ENDLOOP;
IF NOT progress THEN EXIT;
ENDLOOP;
IF cr.waitingMerges # NIL THEN ERROR;
};
GetLineTerms:
PUBLIC
PROC [from:
IO.
STREAM]
RETURNS [terms: Terms] = {
tail: Terms ← terms ← NIL;
WHILE
NOT from.EndOf[]
DO
peek: CHAR ← from.PeekChar[];
SELECT peek
FROM
'\n => {IF from.GetChar[] # peek THEN ERROR; RETURN};
IN [0C .. ' ] => IF from.GetChar[] # peek THEN ERROR;
ENDCASE => {
this: LORA ← LIST[from.GetRefAny[]];
IF tail = NIL THEN terms ← this ELSE tail.rest ← this;
tail ← this};
ENDLOOP;
};
GetSteppyName:
PROC [s: Source]
RETURNS [name: SteppyName] ~ {
raw: ROPE ~ GetName[s];
name ← ParseSteppyName[raw];
};
GetName:
PROC [s: Source]
RETURNS [name:
ROPE] = {
from: IO.STREAM = s.stream;
[] ← from.SkipWhitespace[];
SELECT from.PeekChar[]
FROM
'" => name ← from.GetRopeLiteral[];
ENDCASE => name ← from.GetTokenRope[TokenBreak].token;
};
TokenBreak:
PUBLIC
PROC [char:
CHAR]
RETURNS [cc:
IO.CharClass] =
{cc ←
SELECT char
FROM
'\n => break,
IN [0C .. ' ] => sepr,
ENDCASE => other};
EndLine:
PROC [from:
IO.
STREAM, buffer:
REFTEXT] = {
IF NOT from.EndOf[] THEN [] ← from.GetLine[buffer];
};
ReadTech:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
techname: ROPE ← GetName[s];
ct.otherPublic ← Assert1[$tech, techname, ct.otherPublic];
EndLine[from, cr.dr.buffer];
};
ReadTimestamp:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
unixTime: INT ← from.GetInt[];
time: BasicTime.GMT ← BasicTime.Update[unixOrigin, unixTime];
ct.otherPublic ← Assert[$Source, LIST[cr.name.Cat[".mag"], IO.PutFR["%g", IO.time[time]]], ct.otherPublic];
EndLine[from, cr.dr.buffer];
};
unixOrigin: BasicTime.
GMT ← BasicTime.Pack[[
year: 1970,
month: January,
day: 1,
hour: 0,
minute: 0,
second: 0,
zone: 0--GMT, I hope--,
dst: no]];
ReadVersion:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
version: ROPE ← GetName[s];
deriver: ROPE = "UCB's Magic .extractor";
ct.otherPublic ← Assert[$DerivingProgram, LIST[deriver, version], ct.otherPublic];
EndLine[from, cr.dr.buffer];
};
ReadScale:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
rscale: INT ← from.GetInt[];
cscale: INT ← from.GetInt[];
lscale: INT ← from.GetInt[];
meters: ROPE = "meters";
IF cr.scalingDefined THEN Warn[s, "More than one scale statment"];
cr.scalingDefined ← TRUE;
cr.rScale ← rscale * cr.rScale;
cr.cScale ← cscale * cr.cScale;
cr.lUnits ← lscale * cr.lUnits;
ct.otherPublic ← AssertFn[$scale, LIST[NEW[REAL𡤌r.lUnits], meters], ct.otherPublic];
EndLine[from, cr.dr.buffer];
};
ReadResistClasses:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
n: INT ← 0;
IF cr.resistClasses # undefinedINT THEN Warn[s, "More than one resistclasses statment"];
DO
token: ROPE = from.GetTokenRope[TokenBreak].token;
IF token.Equal["\n"] THEN EXIT;
n ← n + 1;
ENDLOOP;
cr.resistClasses ← n;
};
keepCruft: BOOL ← FALSE;
ReadNode:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
fullName: SteppyName ~ GetSteppyName[s];
nodeName: NameStep ~ IF fullName.rest=NIL THEN fullName.first ELSE ERROR;
R: INT = from.GetInt[];
C: INT = from.GetInt[];
x: INT = from.GetInt[];
y: INT = from.GetInt[];
ok: BOOL = SkipNTokens[from, cr.resistClasses*2, cr.dr.buffer];
attrs: Assertions = ReadAttrs[s];
nv: Wire ← NARROW[LookupPart[ct, nodeName]];
IF nv =
NIL
THEN {
nv ← CreateWire[
containingCT: ct,
names: CreateSteppyNames[LIST[fullName]]
];
}
IF keepCruft
THEN nv.other ←
Assert1[$R, NEW[REAL ← R*cr.rScale],
Assert1[$C, NEW[REAL ← C*cr.cScale],
Assert[$locHint, LIST[NEW[INT←x], NEW[INT←y], $UnspecifiedLayer],
Asserting.Union[attrs, nv.other, TRUE]]]];
EndLine[from, cr.dr.buffer];
};
ReadAttrs:
PROC [s: Source, zeroNIL:
BOOL ←
FALSE]
RETURNS [allTogetherNow: Assertions] = {
from: IO.STREAM = s.stream;
toke: ROPE ← NIL;
allTogetherNow ← NIL;
IF zeroNIL
THEN {
[] ← from.SkipWhitespace[];
IF from.PeekChar[] = '0
THEN {
IF from.GetChar[] # '0 THEN ERROR;
RETURN};
};
{
DO
attr: ROPE ← NIL;
toke ← from.GetTokenRope[AttrBreak !IO.EndOfStream => EXIT].token;
IF toke.Equal[","] THEN {Warn[s, "Extra comma"]; LOOP};
IF NOT toke.Equal["\""] THEN GOTO Return;
from.Backup['"];
attr ← from.GetRopeLiteral[ !IO.Error, IO.EndOfStream => {Warn[s, "not a rope literal"]; CONTINUE}];
IF attr # NIL THEN allTogetherNow ← Assert1[$attr, attr, allTogetherNow];
toke ← from.GetTokenRope[AttrBreak !IO.EndOfStream => EXIT].token;
IF NOT toke.Equal[","] THEN GOTO Return;
ENDLOOP;
EXITS
Return => {
FOR i:
INT
DECREASING
IN [0 .. toke.Length[])
DO
s.stream.Backup[toke.Fetch[i]];
ENDLOOP;
};
}};
AttrBreak:
PROC [char:
CHAR]
RETURNS [cc:
IO.CharClass] =
{cc ← SELECT char FROM ',, '\n, '" => break, ENDCASE => sepr};
ReadEquiv:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
name1: SteppyName = GetSteppyName[s];
name2: SteppyName = GetSteppyName[s];
v1: Vertex ~ LookupPart[ct, name1.first];
v2: Vertex ~ LookupPart[ct, name2.first];
IF name1.rest#NIL OR name2.rest#NIL THEN ERROR;
SELECT
TRUE
FROM
v1=v2 => IF v1=NIL THEN ERROR;
v1=NIL => KnowVertexName[v2, name1];
v2=NIL => KnowVertexName[v1, name2];
ENDCASE => ERROR;
EndLine[from, cr.dr.buffer];
RETURN};
ReadFet:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
type: ROPE ← GetName[s];
xl: INT ← from.GetInt[];
yl: INT ← from.GetInt[];
xh: INT ← from.GetInt[];
yh: INT ← from.GetInt[];
area: INT ← from.GetInt[];
perim: INT ← from.GetInt[];
sub: SteppyName ← GetSteppyName[s];
GATE: FetTerminal ← GetFetTerminal[s];
T1: FetTerminal ← GetFetTerminal[s];
T2: FetTerminal ← GetFetTerminal[s];
sct: CellType;
tv: CellInstance;
DoTerm:
PROC [portIndex:
INT, ft: FetTerminal] = {
nv: Wire = GetNet[s, ct, ft.name];
Connect[tv, nv, portIndex];
};
sct ← GetFetType[cr.dr, type, [xl, yl, xh, yh], area, perim, T1.length+T2.length];
tv ← Instantiate[sct, ct, CreateSteppyNames[LIST[LIST[IO.PutFR["Q%g#", IO.int[cr.fetCount ← cr.fetCount + 1]]]]]];
DoTerm[0, GATE];
DoTerm[1, T1];
DoTerm[2, T2];
EndLine[from, cr.dr.buffer];
};
Connect:
PROC [ci: CellInstance, wire: Wire, portIndex:
INT] = {
[] ← AddEdge[vs: [cellward: ci, wireward: wire], port: ci.type.port.SubPort[portIndex]];
};
GetFetTerminal:
PROC [s: Source]
RETURNS [ft: FetTerminal] = {
from: IO.STREAM = s.stream;
ft.name ← GetSteppyName[s];
ft.length ← from.GetInt[];
ft.attrs ← ReadAttrs[s, TRUE];
};
GetFetType:
PROC [dr: DesignReading, className:
ROPE, innerGate: IntBox, area, perim, sumChannelLengths:
INT]
RETURNS [ct: CellType] = {
design: Design = dr.design;
ft: FetType = NEW [FetTypeRep ← [className, area, perim, sumChannelLengths]];
rft: FetType;
rft ← NARROW[dr.fetTypes.Fetch[ft].val];
IF rft =
NIL
THEN {
cellTypeName: ROPE = IO.PutFR["%g[%g,%g,%g]", IO.rope[ft.className], IO.int[ft.area], IO.int[ft.perim], IO.int[ft.twiceLength]];
Set:
PROC [type, mode:
ATOM] = {
ft.ct.otherPublic ← AssertFn[$MOSFETFlavor, LIST[type, mode], ft.ct.otherPublic];
ft.ct.otherPublic ← AssertFn1[$EquivClass, Rope.Cat["MOSFET", Atom.GetPName[type], Atom.GetPName[mode]], ft.ct.otherPublic];
};
rft ← ft;
ft.ct ← LocalCreateCellType[design, dr, cellTypeName, FALSE, AssertFn[$MOSFETShape, LIST[NEW[REAL ← ft.twiceLength/2.0], NEW[REAL ← area*2.0/ft.twiceLength]], NIL], NIL];
FetPort[ft.ct.port];
SELECT
TRUE
FROM
className.Equal["nfet"] => Set[$n, $E];
className.Equal["pfet"] => Set[$p, $E];
ENDCASE => ERROR;
IF NOT dr.fetTypes.Insert[ft, ft] THEN ERROR;
};
ct ← rft.ct;
};
FetPort:
PROC [fp: Port] = {
[] ← AddPort[[parent: fp, names: CreateSteppyNames[LIST[LIST[R["gate"]]]]]];
[] ← AddPort[[parent: fp, names: CreateSteppyNames[LIST[LIST[R["ch1"]]]]]];
[] ← AddPort[[parent: fp, names: CreateSteppyNames[LIST[LIST[R["ch2"]]]]]];
};
ReadUse:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
typeName: ROPE = GetName[s];
useId: ROPE = GetName[s];
ok: BOOL = SkipNTokens[from, 6, cr.dr.buffer];
u: Use = ParseUseDef[useId];
type: CellType = EnsureType[cr, typeName, u.as, ct, u.childName];
ci: CellInstance = FullyInstantiate[type, ct, CreateSteppyNames[LIST[LIST[u.childName]]]];
EndLine[from, cr.dr.buffer];
};
ParseUseDef:
PROC [useId:
ROPE]
RETURNS [u: Use] = {
in: IO.STREAM = IO.RIS[useId];
u.childName ← in.GetTokenRope[UseNameBreak].token;
IF in.EndOf[]
THEN {
in.Close[];
RETURN [[u.childName, [scalar[]]]]
}
ELSE {
as: ArraySpec.array ← [array[range: ALL[[0, 0]], sep: [0, 0]]];
Get:
PROC [d: Dim] = {
IF in.GetChar[] # '[ THEN ERROR;
as.range[d].min ← in.GetInt[];
IF in.GetChar[] # ': THEN ERROR;
as.range[d].maxPlusOne ← in.GetInt[]+1;
IF in.GetChar[] # ': THEN ERROR;
as.sep[d] ← in.GetInt[];
IF in.GetChar[] # '] THEN ERROR;
};
Get[Foo];
Get[Bar];
IF NOT in.EndOf[] THEN ERROR;
in.Close[];
RETURN [[u.childName, as]];
};
};
UseNameBreak:
PROC [char:
CHAR]
RETURNS [cc:
IO.CharClass]
--IO.BreakProc-- = {
cc ←
SELECT char
FROM
'[, '], ': => break,
ENDCASE => other;
};
EnsureType:
PROC [cr: CellReading, typeName:
ROPE, as: ArraySpec, parent: CellType, childName:
ROPE]
RETURNS [ct: CellType] = {
dr: DesignReading ~ cr.dr;
design: Design = dr.design;
WITH as
SELECT
FROM
x: ArraySpec.scalar => {
ct ← NARROW[dr.cellTypesByName.ApplyA[typeName].MDA];
IF ct = NIL THEN ct ← ReadCellType[design, typeName, dr];
};
x: ArraySpec.array => {
ec: ROPE = typeName.Cat[FmtAS[as]];
cellTypeName: ROPE = IO.PutFR["%g(%g.%g)", IO.rope[ec], IO.rope[CTName[parent]], IO.rope[childName]];
eltType: CellType ← EnsureType[cr, typeName, [scalar[]], NIL, NIL];
size: Size2 = RangeShape[x.range];
ct ← LocalCreateArray[design, dr, cellTypeName, eltType, size, [1, 1], AssertFn1[$EquivClass, ec, NIL], AssertFn1[$ArraySpec, NEW [ArraySpec.array ← x], NIL]];
IF NOT cr.newArrays.AddA[ct] THEN ERROR;
};
ENDCASE => ERROR;
};
EmptyRange2:
PROC [r: Range2]
RETURNS [empty:
BOOL] = {
empty ← r[Foo].maxPlusOne<=r[Foo].min OR r[Bar].maxPlusOne<=r[Bar].min;
};
NameElt:
PROC [i:
INT]
RETURNS [eltName: NameStep] ~
{eltName ← NewInt[i]};
FmtAS:
PROC [as: ArraySpec]
RETURNS [r:
ROPE] = {
r ←
WITH as
SELECT
FROM
scalar => "scalar",
array =>
IO.PutFLR["[%g:%g:%g][%g:%g:%g]",
LIST[
IO.int[range[Foo].min],
IO.int[range[Foo].maxPlusOne-1],
IO.int[sep[Foo]],
IO.int[range[Bar].min],
IO.int[range[Bar].maxPlusOne-1],
IO.int[sep[Bar]]]],
ENDCASE => ERROR;
};
FmtShape:
PROC [shape: Size2]
RETURNS [r:
ROPE] = {
r ← IO.PutFR["[Foo: %g, Bar: %g]", IO.int[shape[Foo]], IO.int[shape[Bar]]];
};
FmtPath:
PROC [path: Path]
RETURNS [r:
ROPE] = {
r ← NIL;
FOR path ← path, path.rest
WHILE path #
NIL
DO
step:
ROPE ←
WITH path.first
SELECT
FROM
x: ROPE => x,
x: REF Range2 => IO.PutFR["[%g:%g,%g:%g]", [integer[x[Foo].min]], [integer[x[Foo].maxPlusOne-1]], [integer[x[Bar].min]], [integer[x[Bar].maxPlusOne-1]]],
ENDCASE => ERROR;
r ← (IF r # NIL THEN r.Concat["/"] ELSE r).Concat[step];
ENDLOOP;
};
ReadMerge:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
IF cr.firstMerge THEN {cr.firstMerge ← FALSE; TryArrayFile[cr]};
{name1: ROPE = GetName[s];
name2: ROPE = GetName[s];
path1: Path = ParsePath[s, ct, name1];
path2: Path = ParsePath[s, ct, name2];
IF ComparePaths[path1, cr.dr.mostRecentPathToMerge]#equal
THEN {
DoMerges[s, cr];
AddMerge[cr.dr, path1];
};
AddMerge[cr.dr, path2];
cr.dr.mostRecentPathToMerge ← path2;
EndLine[from, cr.dr.buffer];
}};
AddMerge:
PROC [dr: DesignReading, path: Path] ~ {
arrayPrefix: Path ~
IF path#
NIL
AND path.rest#
NIL
AND path.rest.rest#
NIL
THEN
WITH path.first
SELECT
FROM
x:
ROPE =>
WITH path.rest.first
SELECT
FROM
r: REF Range2 => LIST[x, r],
ENDCASE => NIL,
ENDCASE => NIL
ELSE NIL;
rs: REF Set--of Path-- ← NARROW[dr.toMerge.ApplyA[arrayPrefix].MDA];
IF rs=NIL THEN dr.toMerge.AddNewAA[arrayPrefix, rs ← Sets.CreateHashSet[].Refify];
IF NOT rs^.AddA[path] THEN ERROR;
RETURN};
nsh: Histograms.Histogram ~ Histograms.Create1D[];
DoMerges:
PUBLIC
PROC [s: Source, cr: CellReading] = {
from: CellType = cr.ct;
dr: DesignReading = cr.dr;
nSets: INT ~ dr.toMerge.Size[].EN;
i: INT ← 0;
lastPath: Path ← NIL;
firstSet: REF Set--of Path-- ← NIL;
DoAMerge:
PROC [ra: Sets.Value] ~ {
path: Path ~ NARROW[ra.VA];
IF lastPath # NIL THEN [] ← MergeWork[cr, lastPath, path];
IF nSets=1 THEN lastPath ← path;
RETURN};
DoASet:
PROC [pair: BiRels.Pair] ~ {
rs: REF Set--of Path-- ~ NARROW[pair[right].VA];
IF i=0 THEN firstSet ← rs;
IF nSets=1 AND pair[left].VA#NIL THEN ERROR;
IF nSets=1 OR i>0 THEN rs^.Enumerate[DoAMerge];
lastPath ← NARROW[rs^.First[].MA];
IF i=1 THEN firstSet^.Enumerate[DoAMerge];
i ← i + 1;
RETURN};
nsh.Increment[nSets];
dr.toMerge.Enumerate[DoASet];
IF i # nSets THEN ERROR;
dr.toMerge.Erase[];
IF NOT dr.toMerge.Empty[] THEN ERROR;
dr.mostRecentPathToMerge ← NIL};
MergeWork:
PROC [cr: CellReading, path1, path2: Path]
RETURNS [success:
BOOL] = {
ct: CellType = cr.ct;
IF ct.asArray # NIL THEN ERROR;
IF path1.rest #
NIL
AND path2.rest #
NIL
THEN
WITH path1.first
SELECT
FROM
x:
ROPE =>
WITH path2.first
SELECT
FROM
y:
ROPE =>
IF x.Equal[y]
THEN {
ci: CellInstance = NARROW[LookupPart[ct, x]];
IF ci.type.asArray #
NIL
THEN {
IF ci.type.useCount # 1 THEN ERROR;
success ← ArrayMerge[cr, ci, x, path1.rest, path2.rest, cr.dr.curArray];
IF cr.dr.curArray AND NOT success THEN cr.waitingMerges ← CONS[NEW [PathPairPrivate ← [path1, path2]], cr.waitingMerges];
IF cr.dr.curArray OR success THEN RETURN;
};
};
y: REF Range2 => ERROR;
ENDCASE => ERROR;
x: REF Range2 => ERROR;
ENDCASE => ERROR;
MergeFinal[ct, path1, path2];
success ← TRUE;
};
ArrayMerge:
PROC [cr: CellReading, arrayInstance: CellInstance, instanceName:
ROPE, path1, path2: Path, may:
BOOL]
RETURNS [merged:
BOOL] = {
act: CellType = arrayInstance.type;
a: Array = act.asArray;
et: CellType = a.eltType;
rr1: REF Range2 = NARROW[path1.first];
rr2: REF Range2 = NARROW[path2.first];
r1: Range2 = rr1^;
r2: Range2 = rr2^;
size: Size2 = RangeShape[r2];
mai1: ArrayIndex = Range2Min[r1];
mai2: ArrayIndex = Range2Min[r2];
D: Int2 = Int2Sub[mai2, mai1];
p1: Port = PortGet[et, path1.rest, may];
p2: Port = PortGet[et, path2.rest, may];
IF RangeShape[r1] # size THEN ERROR;
IF p1=NIL OR p2=NIL THEN {IF may THEN ERROR ELSE RETURN [FALSE]};
IF may
THEN {
IF ABS[D[Foo]]>1 OR ABS[D[Bar]]>1 THEN ERROR;
MakeArrayNewConnection[act, r1, D, p1, p2];
RETURN [TRUE]}
ELSE {
IF size # [1, 1] THEN ERROR;
merged ← ArrayEltPortsConnected[a, mai1, mai2, p1, p2];
RETURN};
};
MergeFinal:
PROC [ct: CellType, path1, path2: Path] = {
w1, w2, nw: Wire;
w1 ← PathGet[ct, path1, TRUE];
w2 ← PathGet[ct, path2, TRUE];
nw ← MergeNets[w1, w2].merged;
RETURN};
ParsePath:
PROC [s: Source, from: CellType, asRope:
ROPE]
RETURNS [p: Path] = {
in: IO.STREAM = IO.RIS[asRope];
t: Path ← p ← NIL;
Append:
PROC [ra:
REF
ANY] = {
this: Path ← LIST[ra];
IF t = NIL THEN p ← this ELSE t.rest ← this;
t ← this};
GetRange:
PROC
RETURNS [x: Range] = {
x.maxPlusOne ← (x.min ← in.GetInt[]) + 1;
SELECT in.PeekChar[]
FROM
': => {
IF in.GetChar[] # ': THEN ERROR;
x.maxPlusOne ← in.GetInt[] + 1;
};
',, '] => NULL;
ENDCASE => ERROR;
};
WHILE
NOT in.EndOf[]
DO
toke: ROPE ← in.GetTokenRope[PathNameBreak].token;
ras: REF ArraySpec.array = NARROW[FnVal[$ArraySpec, from.otherPrivate]];
SELECT
TRUE
FROM
toke.Equal["/"] => LOOP;
toke.Equal["["] => {
food: BOOL = ras.range[Foo].min # ras.range[Foo].maxPlusOne-1;
bard: BOOL = ras.range[Bar].min # ras.range[Bar].maxPlusOne-1;
r2: Range2 ← ras.range;
twoD: BOOL ← FALSE;
IF NOT (food OR bard) THEN ERROR;
IF bard THEN r2[Bar] ← GetRange[] ELSE r2[Foo] ← GetRange[];
toke ← in.GetTokenRope[PathNameBreak].token;
SELECT
TRUE
FROM
toke.Equal["]"] => NULL;
toke.Equal[","] => {
twoD ← TRUE;
r2[Foo] ← GetRange[];
toke ← in.GetTokenRope[PathNameBreak].token;
IF NOT toke.Equal["]"] THEN ERROR;
};
ENDCASE => ERROR;
IF twoD # (food AND bard) THEN ERROR;
Append[NEW [Range2 ← r2]];
from ← from.asArray.eltType;
};
toke.Equal["]"] => ERROR;
toke.Equal[":"] => ERROR;
toke.Equal[","] => ERROR;
ENDCASE => {
Append[toke];
WITH LookupPart[from, toke]
SELECT
FROM
ci: CellInstance => from ← ci.type;
w: Wire => {IF NOT in.EndOf[] THEN ERROR; from ← NIL};
ENDCASE => ERROR;
};
ENDLOOP;
in.Close[];
};
PathNameBreak:
PROC [char:
CHAR]
RETURNS [cc:
IO.CharClass]
--IO.BreakProc-- = {
cc ←
SELECT char
FROM
'[, '], ':, '/, ', => break,
ENDCASE => other;
};
SubType:
PROC [ct: CellType, subscript:
INT]
RETURNS [sct: CellType] = {
ci: CellInstance = NARROW[LookupPart[ct, NameElt[subscript]]];
sct ← ci.type};
PathGet:
PROC [from: CellType, path: Path, mayAdd:
BOOL]
RETURNS [w: Wire] = {
WITH path.first
SELECT
FROM
r:
ROPE => {
child: Vertex = LookupPart[from, r];
WITH child
SELECT
FROM
x: Wire => w ← x;
ci: CellInstance => {
childPort: Port = PortGet[ci.type, path.rest, mayAdd];
IF childPort #
NIL
THEN {
w ← NARROW[FindCellConnection[ci, childPort]];
IF w=NIL THEN ERROR;
};
};
ENDCASE => ERROR;
};
x: REF Range2 => ERROR;
ENDCASE => ERROR;
};
PortGet:
PROC [from: CellType, path: Path, mayAdd:
BOOL]
RETURNS [port: Port] = {
WITH path.first
SELECT
FROM
x:
REF Range2 => {
ras: REF ArraySpec.array = NARROW[FnVal[$ArraySpec, from.otherPrivate]];
a: Array = from.asArray;
eltPort: Port = PortGet[a.eltType, path.rest, mayAdd];
IF eltPort=
NIL
THEN port ←
NIL
ELSE {
index: ArrayIndex = Int2Sub[Range2Min[x^], Range2Min[ras.range]];
IF NOT Range2IsSingleton[x^] THEN ERROR;
port ← GetArrayPortForPort[from, index, eltPort, mayAdd];
};
};
x:
ROPE => {
child: Vertex = LookupPart[from, x];
WITH child
SELECT
FROM
w: Wire =>
IF path.rest #
NIL
THEN
ERROR
ELSE {
port ← PortForWire[from, w, NIL, mayAdd].port;
};
ci: CellInstance =>
IF path.rest =
NIL
THEN
ERROR
ELSE {
childPort: Port = PortGet[ci.type, path.rest, mayAdd];
IF childPort =
NIL
THEN port ←
NIL
ELSE {
w: Wire = NARROW[FindCellConnection[ci, childPort]];
IF w=NIL THEN ERROR;
port ← PortForWire[from, w, NIL, mayAdd].port;
};
};
ENDCASE => ERROR;
};
ENDCASE => ERROR;
port ← port;
};
GetNet:
PROC [s: Source, from: CellType, name: SteppyName]
RETURNS [w: Wire] = {
path: Path ~ Pathify[s, from, name];
w ← PathGet[from, path, TRUE];
};
Pathify:
PROC [s: Source, from: CellType, steppy: SteppyName]
RETURNS [p: Path] ~ {
t: Path ← p ← NIL;
Append:
PROC [ra:
REF
ANY] = {
this: Path ← LIST[ra];
IF t = NIL THEN p ← this ELSE t.rest ← this;
t ← this};
WHILE steppy#
NIL
DO
ras: REF ArraySpec.array = NARROW[FnVal[$ArraySpec, from.otherPrivate]];
WITH steppy.first
SELECT
FROM
x:
REF
INT => {
food: BOOL ~ ras.range[Foo].min # ras.range[Foo].maxPlusOne-1;
bard: BOOL ~ ras.range[Bar].min # ras.range[Bar].maxPlusOne-1;
r2: Range2 ← ras.range;
IF food=bard THEN ERROR;
r2[IF food THEN Foo ELSE Bar] ← [min: x^, maxPlusOne: x^+1];
Append[NEW [Range2 ← r2]];
from ← from.asArray.eltType;
steppy ← steppy.rest};
x:
ROPE => {
Append[x];
WITH LookupPart[from, x]
SELECT
FROM
ci: CellInstance => from ← ci.type;
w: Wire => {IF steppy.rest#NIL THEN ERROR; from ← NIL};
ENDCASE => ERROR;
steppy ← steppy.rest};
ENDCASE => ERROR;
ENDLOOP;
RETURN};
ReadCap:
PROC [s: Source, reader: Reader, cr: CellReading] = {
ct: CellType = cr.ct;
from: IO.STREAM = s.stream;
EndLine[from, cr.dr.buffer];
};
SkipNTokens:
PROC [from:
IO.
STREAM, n:
INT, buffer:
REFTEXT]
RETURNS [ok:
BOOL] = {
WHILE n > 0
DO
token: REFTEXT = from.GetToken[TokenBreak, buffer].token;
IF RefText.Equal[token, "\n"] THEN RETURN [FALSE];
n ← n - 1;
ENDLOOP;
ok ← TRUE;
};
Warn:
PROC [s: Source, msg:
ROPE, v1, v2, v3, v4, v5:
IO.Value ← [null[]]] = {
IF s.name # NIL THEN msg ← IO.PutFR["At %g[%g]: %g", [rope[s.name]], [integer[s.stream.GetIndex[]]], [rope[msg]]];
msg ← IO.PutFR[msg, v1, v2, v3, v4, v5];
Log["%g", LIST[msg]];
};
LocalCreateArray:
PROC [design: Design, dr: DesignReading, cellTypeName:
ROPE, eltType: CellType, size, jointsPeriod: Size2, otherPublic, otherPrivate: Assertions ←
NIL]
RETURNS [ct: CellType] = {
ct ← CreateArray[design, cellTypeName, fromExtClass, eltType, size, jointsPeriod, FALSE, otherPublic, otherPrivate];
dr.cellTypesByName.AddNewAA[cellTypeName, ct];
RETURN};
LocalCreateCellType:
PUBLIC
PROC [design: Design, dr: DesignReading, cellTypeName:
ROPE, internals:
BOOL, otherPublic, otherPrivate: Assertions ←
NIL]
RETURNS [ct: CellType] = {
ct ← CreateCellType[design, cellTypeName, fromExtClass, FALSE, internals, otherPublic, otherPrivate];
dr.cellTypesByName.AddNewAA[cellTypeName, ct];
RETURN};
LookupPart:
PROC [ct: CellType, step: NameStep]
RETURNS [v: Vertex]
~ INLINE {RETURN FetchVertex[ct, LIST[step]]};
CTName:
PROC [cellType: CellType]
RETURNS [name:
ROPE] = {
name ← NARROW[FnVal[nameReln, cellType.otherPublic]];
RETURN};
Start:
PROC = {
Register["tech", ReadTech];
Register["timestamp", ReadTimestamp];
Register["version", ReadVersion];
Register["scale", ReadScale];
Register["resistclasses", ReadResistClasses];
Register["node", ReadNode];
Register["equiv", ReadEquiv];
Register["fet", ReadFet];
Register["use", ReadUse];
Register["merge", ReadMerge];
Register["adjust", ReadAdjust];
Register["cap", ReadCap];
[] ← nsh.Show[viewerInit: [name: "LichenFromExt2Impl.DoMerges.nSets"], updatePeriod: 5];
RETURN};
Start[];
END.