-- FeaturePST.mesa
-- A generic package to organize list elements
-- in a priority search tree by the intervals they cover,
-- and to search by interval.
-- last modified by E. McCreight, November 8, 1982 12:49 PM
-- written by E. McCreight, February 8, 1982 11:51 AM
DIRECTORY
ppdefs,
ChipNetDefs,
InlineDefs;
FeaturePST: DEFINITIONS
IMPORTS InlineDefs =
BEGIN
checkTree: PRIVATE BOOLEAN = FALSE;
Domain: PRIVATE TYPE = ChipNetDefs.Coord;
Interval: PRIVATE TYPE = ChipNetDefs.Interval;
-- assumes [Interval.min..Interval.max)
domainOffset: PRIVATE LONG CARDINAL = 20000000000B;
-- between RadixKey and Domain
Item: PRIVATE TYPE = ChipNetDefs.FeaturePtr;
nullItem: PRIVATE Item = NIL;
RadixKey: PRIVATE TYPE = LONG CARDINAL;
RadixIndex: PRIVATE TYPE = [0..31);
FeaturePSTHandle: TYPE = LONG POINTER TO PSTObject ← NIL;
PSTHandle: PRIVATE TYPE = FeaturePSTHandle;
PSTObject: PRIVATE TYPE = RECORD [
zone: UNCOUNTED ZONE,
freeNodes: PSTBinNodePtr ← NIL,
-- free ones linked through halves[lower]
root: PSTNodePtr
];
PSTNodePtr: PRIVATE TYPE = LONG POINTER TO PSTNode ←
NIL | NULL;
PSTNode: PRIVATE TYPE = RECORD[
SELECT target: * FROM
nil => NULL,
leaf => [item: Item],
internal => [pst: PSTBinNodePtr],
-- never NIL, except in free list
ENDCASE] ← [nil[]];
Half: PRIVATE TYPE = {lower, upper};
PSTBinNodePtr: PRIVATE TYPE = LONG POINTER TO
PSTBinNode ← NIL;
PSTBinNode: PRIVATE TYPE = RECORD[
-- This priority search tree is a kind of Patricia
-- tree (see Knuth v. 3 p. 490).
-- Bits [0..uLen) of int.max of all Items
-- in this subtree must match each other and that of
-- vMin. lower vs upper is determined by bit uLen.
-- Of all Items meeting these criteria, the one with minimal
-- int.min appears in vMin.
vMin: Item,
uLen: RadixIndex,
halves: ARRAY Half OF PSTNode];
NewFeaturePST: PROCEDURE[zone: UNCOUNTED ZONE]
RETURNS[PSTHandle];
DestroyFeaturePST: PROCEDURE[p: PSTHandle]
RETURNS[PSTHandle];
InsertFeaturePST, DeleteFeaturePST: PROCEDURE[p: PSTHandle, item: Item];
CouldntDeleteFeaturePST: SIGNAL;
MaxFeatureInCover: PROCEDURE[p: PSTHandle,
d: Domain] RETURNS[covered: BOOLEAN, item: Item];
SearchFeaturePST: PROCEDURE[p: PSTHandle,
int: Interval, touch: PROCEDURE[item: Item]];
ClassifyFeaturePSTInterval: PROCEDURE[p: PSTHandle,
int: Interval,
covered: PROCEDURE[int: Interval, repItem: Item],
gap: PROCEDURE[int: Interval]];
NullFeatureCovered: PROCEDURE[int: Interval, repItem: Item];
NullFeatureGap: PROCEDURE[int: Interval];
�
highBit: WORD = 100000B;
allBits: WORD = 177777B;
-- The following code knows that a RadixKey is a
-- LONG CARDINAL.
TreeHalf: PRIVATE PROCEDURE[item: Item, pref: RadixIndex]
RETURNS[Half] = INLINE
BEGIN OPEN InlineDefs;
k: RadixKey ← RadixMaxKey[item];
SELECT pref FROM
>15 =>
RETURN[
(IF BITAND[LowHalf[k], BITSHIFT[highBit, 16-pref]]=0
THEN lower
ELSE upper)];
ENDCASE =>
RETURN[
(IF BITAND[HighHalf[k], BITSHIFT[highBit, -pref]]=0
THEN lower
ELSE upper)];
END; -- of TreeHalf
Above: PRIVATE PROCEDURE[y: Domain, p: PSTBinNodePtr]
RETURNS[BOOLEAN] = INLINE
BEGIN OPEN InlineDefs;
ky: RadixKey ← ToRadixKey[y];
kn: RadixKey ← RadixMaxKey[p.vMin];
kn ← SELECT p.uLen FROM
>15 =>
LOOPHOLE[
LongNumber[num[highbits: HighHalf[kn],
lowbits: BITOR[LowHalf[kn],
BITSHIFT[allBits, 16-p.uLen]]]],
RadixKey],
ENDCASE =>
LOOPHOLE[
LongNumber[num[highbits: BITOR[HighHalf[kn],
BITSHIFT[allBits, -p.uLen]],
lowbits: allBits]],
RadixKey];
RETURN[kn<=ky];
END; -- of Above
PrefixTable: PRIVATE TYPE = PACKED ARRAY [0..256) OF [0..8];
-- t[i] is the number of high-order 0 bits in
-- an 8-bit representation of i
PrefixTablePtr: PRIVATE TYPE =
LONG POINTER TO PrefixTable ← NIL;
CommonLen: PRIVATE PROCEDURE[i1, i2: Item,
pt: PrefixTablePtr] RETURNS[RadixIndex] = INLINE
BEGIN OPEN InlineDefs;
k1: RadixKey ← RadixMaxKey[i1];
k2: RadixKey ← RadixMaxKey[i2];
d: WORD;
result: RadixIndex;
IF (d ← BITXOR[HighHalf[k1], HighHalf[k2]])=0 THEN
BEGIN
IF (d ← BITXOR[LowHalf[k1], LowHalf[k2]])=0 THEN
RETURN[LAST[RadixIndex]]
ELSE result ← 16;
END
ELSE result ← 0;
IF BITAND[d, 177400B]=0 THEN result ← result+8
ELSE d ← BITSHIFT[d, -8];
RETURN[result+pt[d]];
END; -- of CommonLen
Shallower: PRIVATE PROCEDURE[i1, i2: Item] RETURNS
[BOOLEAN] = INLINE
{RETURN[SELECT Min[i1]-Min[i2] FROM
<0 => TRUE,
>0 => FALSE,
ENDCASE => Max[i2]<=Max[i1]
]};
RadixMaxKey: PRIVATE PROCEDURE[item: Item]
RETURNS[RadixKey] = INLINE
{RETURN[ToRadixKey[Max[item]]]};
ToRadixKey: PRIVATE PROCEDURE[d: Domain]
RETURNS[RadixKey] = INLINE
{RETURN[LOOPHOLE[d, RadixKey]+domainOffset]};
Min: PRIVATE PROCEDURE[item: Item] -- closed lower bound
RETURNS[Domain] = INLINE
{RETURN[item.cover.y1]};
Max: PRIVATE PROCEDURE[item: Item] -- open upper bound
RETURNS[Domain] = INLINE
{RETURN[item.cover.y2]};
END. -- of FeaturePST