-- 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