This module implements Pickles. See the interface for documentation
UNSAFE MODULESyntax of a pickle, and constants pertaining thereto; IMPORT BuiltinSpecials, Rd, RT0, RTAllocator, RTCollector, RTHeap; IMPORT RTHeapRep, RTType, RTTypeFP, RTTypeMap, Thread, Word, Wr, Fingerprint; Pickle
Pickle:: Header Value Trailer
Header:: Header1 - verify it's a pickle
Header2 - verify it's a pickle
Version - version of this syntax
CharRep - character encoding
Endian - byte order
IntSize - size of an INTEGER
RealRep - format of REAL and such
CharRep:: CharRepISOLatin1
Endian:: LittleEndian | BigEndian
IntSize:: IntSize16 | IntSize32 | IntSize64
RealRep:: RealRepNative
Value:: '0' - r=NIL
'1' 4-byte-integer - pickle-relative index of r (0 based)
'2' 8-bytes - COMPATIBILITY, old fingerprint
'3' scInt acInt Contents - COMPATIBILITY, old value
- '4' is not used, but occurs in Trailer as blunder check.
'5' sc Contents - an actual value
FingerPrint:: bytes - 8 bytes, details t.b.d.
sc:: LocalCode - typecode of Special
writing the value
Contents:: ( bytes | Value )* - Special.write output
Trailer:: Trailer1 Trailer2 - verify the parse was OK
- Note that LocalCode may occur within the bytes written by a
special. E.g. the root special does this to record the allocated
type of the value. It is written by WriteType and parsed by ReadType.
LocalCode:: 0 8-bytes | - first occurence of a fingerprint. [1..254] | - subsequent occurrence, n IN [1..254]. 255 4-byte-integer - subsequent occurence, other cases.
CONST
Header1 = '&';
Header2 = '%';
Version = '2'; (* current syntax *)
OldVersion = '1'; (* old FP and ac syntax *)
CharRepISOLatin1 = 'I'; (* 8-bit ISO Latin 1 *)
LittleEndian = 'L'; (* l.s. byte first *)
BigEndian = 'B'; (* m.s. byte first *)
IntSize16 = '4'; (* 16 bit INTEGER *)
IntSize32 = '5'; (* 32 bit INTEGER *)
IntSize64 = '6'; (* 64 bit INTEGER *)
RealRepNative = 'N'; (* whatever the writing
host used *)
Trailer1 = '4'; (* # main cases *)
Trailer2 = '\n'; (* keeps editors happy *)
Constants, types and revelations
TYPE
RefTable = REF ARRAY OF RECORD
(* hash table keyed by REFANY, yields index in pickle *)
r: REFANY := NIL; (* the Ref *)
index: INTEGER := 0; (* pickle-relative index of this
ref, 0-based *)
nextUsed: INTEGER := 0; (* index in this table of next
used entry *)
END;
RefArray = REF ARRAY OF REFANY;
(* array indexed by index in pickle, yields REFANY *)
TypeTable = REF ARRAY OF INTEGER;
(* indexed by RTType.TypeCode, yields pickle-relative typecode *)
(* Or indexed by pickle-relative typecode, yields RTTypes.TypeCode *)
REVEAL
Writer = WriterPublic BRANDED "Pickle.Writer 1.0" OBJECT
level := 0;
refCount: INTEGER; (* count of refs written in this pickle *)
firstUsed: INTEGER; (* index in "refs" of first used entry *)
refs: RefTable := NIL; (* hash table of refs in this pickle *)
tcCount: INTEGER; (* count of typecodes in this pickle *)
tcToPkl: TypeTable := NIL; (* process TC -> pickle TC *)
pklToTC: TypeTable := NIL; (* pickle TC -> process TC, for erasing tcToPkl *)
nextAddr: ADDRESS; (* Used within RootSpecialWrite *)
collisions: INTEGER := 0; (* Performance measure *)
visitor: WriteVisitor := NIL;
OVERRIDES
write := WriteRef;
writeType := WriteType;
writeInt := WriteInt;
END;
Reader = ReaderPublic BRANDED "Pickle.Reader 1.0" OBJECT
level := 0;
acPending := 0; (* COMPATIBILITY - OldVersion *)
refCount: INTEGER; (* count of refs read in this pickle *)
tcCount: INTEGER; (* count of typecodes in this pickle *)
refs: RefArray := NIL; (* array of refs in this pickle *)
pklToTC: TypeTable := NIL; (* pickle TC -> process TC *)
nextAddr: ADDRESS; (* Used within RootSpecialWrite *)
visitor: ReadVisitor := NIL;
OVERRIDES
read := ReadRef;
readType := ReadType;
readInt := ReadInt;
noteRef := NoteRef;
END;
Special = SpecialPublic BRANDED "Pickle.Special 1.0" OBJECT
OVERRIDES
write := RootSpecialWrite;
read := RootSpecialRead;
END;
TYPE
WriteVisitor = RTTypeMap.Visitor OBJECT
writer: Writer := NIL;
OVERRIDES
apply := VisitWrite;
END;
ReadVisitor = RTTypeMap.Visitor OBJECT
reader: Reader := NIL;
OVERRIDES
apply := VisitRead;
END;
CONST
RefFields = RTTypeMap.Mask { RTTypeMap.Kind.Ref,
RTTypeMap.Kind.UntracedRef,
RTTypeMap.Kind.Proc };
TYPE (* for binary I/O loopholes *)
CharInt32 = ARRAY [0..3] OF CHAR; (* 32 bits only *)
CharFP = ARRAY [0..BYTESIZE(Fingerprint.T)-1] OF CHAR;
ToChars = UNTRACED REF ARRAY [0..100000000] OF CHAR; (* for misc. data *)
TYPE
HC = { h1, h2, v, c, e, i, r }; (* the chars in a pickle header *)
HT = { t1, t2 }; (* the chars in a pickle trailer *)
Header = ARRAY HC OF CHAR; (* a pickle header string *)
Trailer = ARRAY HT OF CHAR; (* a pickle trailer string *)
CONST
InitRefCapacity = 99; (* Init size of {Reader,Writer}.refs *)
InitTypeCapacity = 99; (* Init size of *.pklToTC *)
Global variables (gasp!); initialized in main body
VAR myHeader: Header; (* header for pickles we write *) VAR myTrailer: Trailer; (* trailer for pickles we write *) VAR nullReaderRef: REF INTEGER; (* null value for reader.refs entries *)Top-level sugar: Write and Read
PROCEDUREWriter methods and subroutinesWrite (wr: Wr.T; r: REFANY) RAISES { Error, Wr.Failure, Thread.Alerted } = BEGIN NEW (Writer, wr := wr).write(r); END Write; PROCEDURERead (rd: Rd.T): REFANY RAISES { Error, Rd.EndOfFile, Rd.Failure, Thread.Alerted } = BEGIN RETURN NEW (Reader, rd := rd).read(); END Read;
PROCEDUREReader methods and subroutinesHash (r: REFANY; table: RefTable): INTEGER = (* Considerations for the hash function: - use positive numbers - multiply to avoid collisions between equally distributed patterns - don't overflow 31-bit positive numbers - keep it efficient - result is in [0..LAST(table)] *) BEGIN RETURN ((Word.And(LOOPHOLE(r, Word.T), 16_7FFFFFFF) DIV 65536) * (LOOPHOLE(r, Word.T) MOD 65536) ) MOD NUMBER(table^) END Hash; PROCEDUREExtendWriterRefs (writer: Writer) = (* Make writer.refs bigger *) VAR old := writer.refs; VAR oldFirst := writer.firstUsed; VAR h: INTEGER; BEGIN writer.firstUsed := -1; writer.refs := NEW(RefTable, NUMBER(writer.refs^) * 2 - 1); WHILE oldFirst >= 0 DO (* for each entry in "old" *) WITH oldEntry = old[oldFirst] DO h := Hash(oldEntry.r, writer.refs); LOOP WITH entry = writer.refs[h] DO IF entry.r = NIL THEN entry.r := oldEntry.r; entry.index := oldEntry.index; entry.nextUsed := writer.firstUsed; writer.firstUsed := h; EXIT ELSE <* ASSERT(entry.r # oldEntry.r) *> INC(h); IF h >= NUMBER(writer.refs^) THEN h := 0 END; END;(*IF*) END;(*WITH*) END;(*LOOP*) oldFirst := oldEntry.nextUsed; END;(*WITH oldEntry*) END;(*WHILE*) END ExtendWriterRefs; PROCEDUREWriteRef (writer: Writer; r: REFANY) RAISES { Error, Wr.Failure, Thread.Alerted } = VAR h: INTEGER; VAR sp: Special; BEGIN IF writer.level = 0 THEN (* Start of a pickle; do the overhead and call ourselves recursively *) IF writer.visitor = NIL THEN writer.visitor := NEW (WriteVisitor, writer := writer); END; IF writer.refs = NIL THEN (* deferred allocation *) writer.refs := NEW(RefTable, InitRefCapacity * 2 - 1); WITH refs = writer.refs^ DO FOR i := 0 TO LAST(refs) DO refs[i].r := NIL END; END; writer.firstUsed := -1; writer.tcCount := 0; (* prevent excessive initialization *) writer.tcToPkl := NEW(TypeTable, RTType.MaxTypecode()+1); writer.pklToTC := NEW(TypeTable, InitTypeCapacity); WITH tcs = writer.tcToPkl^ DO FOR i := 0 TO LAST(tcs) DO tcs[i] := 0 END; END; END; (* (Re-)initialize the writer's state *) <*ASSERT (writer.firstUsed = -1)*> (* cleaned up last time *) writer.refCount := 0; FOR i := 1 TO writer.tcCount DO writer.tcToPkl[writer.pklToTC[i]] := 0 END; writer.tcCount := 0; writer.collisions := 0; Wr.PutString(writer.wr, myHeader); RTCollector.DisableMotion(); INC(writer.level); TRY WriteRef(writer, r); FINALLY RTCollector.EnableMotion(); DEC(writer.level); (* Flush the refs table now, to encourage the garbage collector. It must be flushed before re-use anyway *) h := writer.firstUsed; WHILE h >= 0 DO WITH entry = writer.refs[h] DO entry.r := NIL; h := entry.nextUsed; END; END; writer.firstUsed := -1; END;(*TRY*) Wr.PutString(writer.wr, myTrailer); ELSE (* Normal case: level#0 *) IF r = NIL THEN Wr.PutChar(writer.wr, '0'); ELSE (* check refTable *) (* The following loop includes the entire hash table implementation. Considerations for the hash table algorithm: - mostly, we're adding new entries; looking up old entries is rare - we need to flush the table completely once per pickle - beware of relocating garbage collectors *) h := Hash(r, writer.refs); LOOP WITH entry = writer.refs[h] DO IF entry.r = NIL THEN (* virgin: insert in hash table *) entry.r := r; entry.index := writer.refCount; entry.nextUsed := writer.firstUsed; (* for fast flushing *) writer.firstUsed := h; INC(writer.refCount); IF writer.refCount * 2 > NUMBER(writer.refs^) THEN ExtendWriterRefs(writer); END; (* CAUTION: don't use "entry" after here, because it might be invalidated by extendWriterRefs *) Wr.PutChar(writer.wr, '5'); sp := GetSpecial (TYPECODE (r)); writer.writeType(sp.sc); sp.write(r, writer); EXIT ELSIF entry.r = r THEN (* recycled *) Wr.PutChar(writer.wr, '1'); writer.writeInt(entry.index); EXIT ELSE (* Hash collision *) INC(h); IF h >= NUMBER(writer.refs^) THEN h := 0 END; INC(writer.collisions); END; END;(*WITH*) END;(*LOOP*) END;(*r#NIL*) END;(*IF level=0 THEN ELSE*) END WriteRef; PROCEDUREExtendWriterTypes (writer: Writer) = (* Extend writer.pklToTC *) VAR old := writer.pklToTC; BEGIN writer.pklToTC := NEW(TypeTable, NUMBER(writer.pklToTC^) * 2); SUBARRAY(writer.pklToTC^, 0, NUMBER(old^)) := old^; END ExtendWriterTypes; PROCEDUREWriteType (writer: Writer; tc: INTEGER) RAISES { Wr.Failure, Thread.Alerted } = VAR fp: Fingerprint.T; BEGIN WITH pickleTC = writer.tcToPkl[tc] DO IF pickleTC = 0 THEN INC(writer.tcCount); IF writer.tcCount >= NUMBER(writer.pklToTC^) THEN ExtendWriterTypes(writer); END; pickleTC := writer.tcCount; writer.pklToTC[writer.tcCount] := tc; fp := RTTypeFP.ToFingerprint(tc); Wr.PutChar(writer.wr, VAL(0, CHAR)); Wr.PutString(writer.wr, LOOPHOLE(fp, CharFP)); ELSIF pickleTC < 255 THEN Wr.PutChar(writer.wr, VAL(pickleTC, CHAR)); ELSE Wr.PutChar(writer.wr, VAL(255, CHAR)); writer.writeInt(pickleTC); END; END; END WriteType; PROCEDUREWriteInt (writer: Writer; i: INTEGER) RAISES { Wr.Failure, Thread.Alerted } = BEGIN Wr.PutString(writer.wr, LOOPHOLE(ADR(i), UNTRACED REF CharInt32)^); END WriteInt;
PROCEDUREExtendReaderTypes (reader: Reader) = (* Extend reader.pklToTC *) VAR old := reader.pklToTC; BEGIN reader.pklToTC := NEW(TypeTable, NUMBER(reader.pklToTC^) * 2); SUBARRAY(reader.pklToTC^, 0, NUMBER(old^)) := old^; END ExtendReaderTypes; PROCEDUREGetBinaryInt (rd: Rd.T): INTEGER RAISES { Rd.EndOfFile, Rd.Failure, Thread.Alerted } = VAR i: INTEGER := 0; BEGIN IF Rd.GetSub(rd, LOOPHOLE (ADR(i), UNTRACED REF CharInt32)^) # BYTESIZE(CharInt32) THEN RAISE Rd.EndOfFile END; RETURN i; END GetBinaryInt; PROCEDUREReadFP (reader: Reader): TypeCode RAISES { Error, Rd.EndOfFile, Rd.Failure, Thread.Alerted } = (* Read a fingerprint (8 bytes), store in reader.pklToTC, and return typecode *) VAR fp: Fingerprint.T; tc: TypeCode; BEGIN IF Rd.GetSub(reader.rd, LOOPHOLE(fp, CharFP)) # BYTESIZE(CharFP) THEN RAISE Rd.EndOfFile END; INC(reader.tcCount); IF reader.tcCount >= NUMBER(reader.pklToTC^) THEN ExtendReaderTypes(reader); END; tc := RTTypeFP.FromFingerprint(fp); IF tc = RTType.NoSuchType THEN RAISE Error( "Can't read pickle (type not known in this program)") END; reader.pklToTC[reader.tcCount] := tc; RETURN tc END ReadFP; PROCEDURETCFromIndex (reader: Reader; index: INTEGER): TypeCode RAISES { Error } = BEGIN IF index > reader.tcCount THEN RAISE Error("Malformed pickle (TC index too large)") END; RETURN reader.pklToTC[index] END TCFromIndex; PROCEDUREInvokeSpecial (reader: Reader; sc: TypeCode): REFANY RAISES { Error, Rd.EndOfFile, Rd.Failure, Thread.Alerted } = VAR sp: Special; r: REFANY; id: RefID; BEGIN sp := GetSpecial (sc); IF sp.sc # sc THEN RAISE Error("Can't read pickle (Special not defined)") END; IF reader.refCount >= NUMBER(reader.refs^) THEN VAR old := reader.refs; BEGIN reader.refs := NEW(RefArray, NUMBER(reader.refs^) * 2); SUBARRAY(reader.refs^, 0, NUMBER(old^)) := old^; END; END; id := reader.refCount; reader.refs[id] := nullReaderRef; INC(reader.refCount); INC(reader.level); r := sp.read(reader, id); DEC(reader.level); reader.noteRef(r, id); RETURN r END InvokeSpecial; PROCEDUREReadRef (reader: Reader): REFANY RAISES { Error, Rd.EndOfFile, Rd.Failure, Thread.Alerted } = VAR r: REFANY; (* the result *) VAR repCase: CHAR; BEGIN IF reader.level = 0 THEN (* Start of a pickle *) IF reader.visitor = NIL THEN reader.visitor := NEW (ReadVisitor, reader := reader); END; IF reader.refs = NIL THEN (* deferred allocation *) reader.refs := NEW(RefArray, InitRefCapacity); reader.pklToTC := NEW(TypeTable, InitTypeCapacity); END; (* (Re-)initialize the reader's state *) reader.refCount := 0; reader.tcCount := 0; (* Header *) VAR headerChars: Header; BEGIN IF Rd.GetSub(reader.rd, headerChars) # NUMBER(HC) THEN RAISE Rd.EndOfFile ELSIF (headerChars[HC.h1] # myHeader[HC.h1]) OR (headerChars[HC.h2] # myHeader[HC.h2]) THEN RAISE Error("Malformed pickle (wrong signature)") ELSIF (headerChars[HC.v] # myHeader[HC.v]) AND (headerChars[HC.v] # OldVersion) THEN RAISE Error("Can't read pickle (wrong version)") ELSIF headerChars[HC.c] # myHeader[HC.c] THEN RAISE Error("Can't read pickle (char rep)") ELSIF headerChars[HC.e] # myHeader[HC.e] THEN RAISE Error("Can't read pickle (endian)")
ELSIF headerChars[HC.i] # myHeader[HC.i] THEN RAISE Error(
Can't read pickle (INTEGER size))
ELSIF headerChars[HC.r] # myHeader[HC.r] THEN
RAISE Error("Can't read pickle (REAL rep)")
END;
END;
END;
LOOP
(* COMPATIBILITY: OldVersion uses '2 fingerprint' *)
repCase := Rd.GetChar(reader.rd);
IF repCase # '2' THEN EXIT END;
EVAL ReadFP(reader)
END;
IF repCase = '0' THEN
r := NIL;
ELSIF repCase = '1' THEN
VAR refIndex := reader.readInt();
BEGIN
IF refIndex >= reader.refCount THEN
RAISE Error("Malformed pickle (ref index too large)")
END;
r := reader.refs[refIndex];
END;
ELSIF repCase = '3' THEN
(* COMPATIBILITY: OldVersion uses 3 sc ac contents *)
VAR sc := GetBinaryInt(reader.rd);
BEGIN
reader.acPending := GetBinaryInt(reader.rd);
r := InvokeSpecial(reader, TCFromIndex(reader, sc));
reader.acPending := 0;
END
ELSIF repCase = '5' THEN
r := InvokeSpecial(reader, reader.readType());
ELSE
RAISE Error("Malformed pickle (unknown switch)")
END;
IF reader.level = 0 THEN
IF (Rd.GetChar(reader.rd) # Trailer1) OR
(Rd.GetChar(reader.rd) # Trailer2) THEN
RAISE Error("Malformed pickle (wrong trailer)")
END;
(* flush the ref table to encourage the garbage collector *)
WITH refs = reader.refs^ DO
FOR i := 0 TO reader.refCount-1 DO refs[i] := NIL END;
END;
END;
RETURN r
END ReadRef;
PROCEDURE ReadType (reader: Reader): TypeCode
RAISES { Error, Rd.EndOfFile, Rd.Failure, Thread.Alerted } =
VAR c: CHAR; ac: INTEGER;
BEGIN
IF reader.acPending # 0 THEN
(* COMPATIBILITY *)
ac := reader.acPending; reader.acPending := 0;
RETURN TCFromIndex(reader, ac);
ELSE
c := Rd.GetChar(reader.rd);
IF ORD(c) = 0 THEN
RETURN ReadFP(reader)
ELSIF ORD(c) < 255 THEN
RETURN TCFromIndex(reader, ORD(c));
ELSE
RETURN TCFromIndex(reader, reader.readInt());
END;
END;
END ReadType;
PROCEDURE ReadInt (reader: Reader): INTEGER
RAISES {Rd.EndOfFile, Rd.Failure, Thread.Alerted} =
BEGIN
RETURN GetBinaryInt(reader.rd)
END ReadInt;
PROCEDURE NoteRef (reader: Reader; ref: REFANY; id: RefID) =
BEGIN
WITH rr = reader.refs[id] DO
<* ASSERT (rr = nullReaderRef) OR (rr = ref) *>
rr := ref;
END;
END NoteRef;
---------------------------------------------------------------- specials ---
TYPE
SpecialTable = REF ARRAY OF Special;
(* indexed by RTType.TypeCode, yields Special for nearest super-type *)
VAR
specialsMu := NEW(MUTEX);
specials : SpecialTable := NIL; (* LL >= specialsMu *)
theRootSpecial : Special; (* LL >= specialsMu *)
PROCEDURE GetSpecial (tc: TypeCode): Special =
(* LL = 0 *)
BEGIN
LOCK specialsMu DO
IF (specials = NIL) THEN InitSpecials (); END;
IF (tc >= NUMBER (specials^)) THEN ExpandSpecials (); END;
RETURN specials[tc];
END;
END GetSpecial;
PROCEDURE InitSpecials () =
(* LL >= specialsMu *)
VAR max_type := RTType.MaxTypecode ();
BEGIN
theRootSpecial := NEW(Special, sc := RT0.NilTypecode);
specials := NEW(SpecialTable, max_type+1);
FOR i := 0 TO LAST(specials^) DO
specials[i] := theRootSpecial;
END;
Thread.Release (specialsMu);
TRY BuiltinSpecials.Register ();
FINALLY Thread.Acquire (specialsMu);
END;
END InitSpecials;
PROCEDURE ExpandSpecials () =
(* LL >= specialsMu *)
VAR max_type := RTType.MaxTypecode ();
BEGIN
IF (max_type > LAST (specials^)) THEN
VAR new_sp := NEW (SpecialTable, max_type+1); BEGIN
SUBARRAY (new_sp^, 0, NUMBER (specials^)) := specials^;
FOR i := NUMBER (specials^) TO LAST (new_sp^) DO
new_sp[i] := FindBestSpecial (i);
END;
END;
END;
END ExpandSpecials;
PROCEDURE FindBestSpecial (tc: TypeCode): Special =
VAR sp: Special;
BEGIN
LOOP
tc := RTType.Supertype (tc);
IF (tc = RTType.NoSuchType) THEN
RETURN theRootSpecial;
END;
IF (0 <= tc) AND (tc < NUMBER (specials^)) THEN
sp := specials [tc];
IF (sp # NIL) THEN RETURN sp; END;
END;
END;
END FindBestSpecial;
EXCEPTION DuplicateSpecial;
PROCEDURE RegisterSpecial (sp: Special) =
<* FATAL DuplicateSpecial *>
VAR xp: Special;
BEGIN
xp := GetSpecial (sp.sc);
IF xp.sc = sp.sc THEN RAISE DuplicateSpecial; END;
LOCK specialsMu DO
FOR i := 0 TO LAST(specials^) DO
IF (i#RT0.NilTypecode) AND RTType.IsSubtype(i,sp.sc) THEN
(* i is a sub-type of this special *)
IF (specials[i].sc = RT0.NilTypecode) OR
RTType.IsSubtype(sp.sc, specials[i].sc) THEN
(* previous special for i isn't more specific than sp.sc *)
specials[i] := sp;
END;
END;
END;
END;
END RegisterSpecial;
PROCEDURE VisitWrite (v: WriteVisitor; field: ADDRESS; kind: RTTypeMap.Kind)
RAISES ANY =
(* Call-back from RTType.Visit for RootSpecialWrite *)
VAR writer := v.writer;
BEGIN
(* write data fields preceding the ref *)
IF field # writer.nextAddr THEN
Wr.PutString(writer.wr,
SUBARRAY(LOOPHOLE(writer.nextAddr, ToChars)^,
0, field - writer.nextAddr));
END;
IF kind = RTTypeMap.Kind.Ref THEN
writer.write(LOOPHOLE(field, UNTRACED REF REFANY)^);
ELSE
(* Other REF fields, including procedures, are discarded on
write *)
END;
writer.nextAddr := field + ADRSIZE(ADDRESS);
END VisitWrite;
PROCEDURE RootSpecialWrite (<*UNUSED*> sp: Special;
r: REFANY; writer: Writer)
RAISES { Error <*NOWARN*>, Wr.Failure, Thread.Alerted } =
VAR nDim: INTEGER;
VAR shape: UNTRACED REF ARRAY [0..999] OF INTEGER;
VAR limit: ADDRESS;
BEGIN
writer.writeType(TYPECODE(r));
RTHeapRep.UnsafeGetShape (r, nDim, shape);
FOR i := 0 TO nDim-1 DO
writer.writeInt(shape[i]);
END;
writer.nextAddr := RTHeap.GetDataAdr(r);
limit := writer.nextAddr + RTHeap.GetDataSize(r);
<*FATAL ANY*> BEGIN
RTTypeMap.WalkRef(r, RefFields, writer.visitor);
END;
(* Write remainder of the data fields *)
IF limit # writer.nextAddr THEN
Wr.PutString(writer.wr,
SUBARRAY(LOOPHOLE(writer.nextAddr, ToChars)^,
0, limit-writer.nextAddr));
END;
END RootSpecialWrite;
PROCEDURE VisitRead (v: ReadVisitor; field: ADDRESS; kind: RTTypeMap.Kind)
RAISES ANY =
(* Call-back from RTType.Visit for RootSpecialRead *)
VAR reader := v.reader;
BEGIN
(* read data fields preceding the ref *)
EVAL Rd.GetSub(reader.rd,
SUBARRAY(LOOPHOLE(reader.nextAddr, ToChars)^,
0, field - reader.nextAddr));
IF kind = RTTypeMap.Kind.Ref THEN
LOOPHOLE(field, UNTRACED REF REFANY)^ := reader.read();
ELSE
(* Other REF fields, including procedures, are discarded on
write *)
LOOPHOLE(field, UNTRACED REF REFANY)^ := NIL;
END;
reader.nextAddr := field + ADRSIZE(ADDRESS);
END VisitRead;
PROCEDURE RootSpecialRead (<*UNUSED*> sp: Special;
reader: Reader; id: RefID): REFANY
RAISES { Error, Rd.EndOfFile, Rd.Failure, Thread.Alerted } =
VAR nDim: INTEGER;
VAR shape: ARRAY [0..10] OF INTEGER;
VAR limit: ADDRESS;
VAR r: REFANY;
VAR ac := reader.readType();
BEGIN
TRY
nDim := RTType.GetNDimensions(ac);
IF nDim > 0 THEN
FOR i := 0 TO nDim-1 DO
shape[i] := reader.readInt();
END;
r := RTAllocator.NewTracedArray(ac, SUBARRAY(shape, 0, nDim));
ELSE
r := RTAllocator.NewTraced(ac);
END;
EXCEPT RTAllocator.OutOfMemory =>
RAISE Error("Can't red pickle (out of memory)")
END;
reader.noteRef(r, id);
reader.nextAddr := RTHeap.GetDataAdr(r);
limit := reader.nextAddr + RTHeap.GetDataSize(r);
<*FATAL ANY*> BEGIN
RTTypeMap.WalkRef(r, RefFields, reader.visitor);
END;
(* Read remainder of the data fields *)
EVAL Rd.GetSub(reader.rd,
SUBARRAY(LOOPHOLE(reader.nextAddr, ToChars)^,
0, limit-reader.nextAddr));
RETURN r
END RootSpecialRead;
---------------------------------------------------------- initialization ---
PROCEDUREInitHeader () = VAR test: BITS 16 FOR [0..32767]; TYPE EndianTest = ARRAY[0..1] OF BITS 8 FOR [0..255]; BEGIN myHeader[HC.h1] := Header1; myHeader[HC.h2] := Header2; myHeader[HC.v] := Version; myHeader[HC.c] := CharRepISOLatin1; test := 1; IF LOOPHOLE(test, EndianTest)[0] = 1 THEN myHeader[HC.e] := LittleEndian ELSE myHeader[HC.e] := BigEndian; END; IF BITSIZE(INTEGER) = 16 THEN myHeader[HC.i] := IntSize16 ELSIF BITSIZE(INTEGER) = 32 THEN myHeader[HC.i] := IntSize32 ELSIF BITSIZE(INTEGER) = 64 THEN myHeader[HC.i] := IntSize64 ELSE myHeader[HC.i] := '?' END; myHeader[HC.r] := RealRepNative; myTrailer[HT.t1] := Trailer1; myTrailer[HT.t2] := Trailer2; END InitHeader; BEGIN InitHeader(); nullReaderRef := NEW(REF INTEGER); END Pickle.