��(FILECREATED "20-Mar-86 14:26:34" ��{QV}<PEDERSEN>LISP>ARRAYSORTER.;2�� 11593
changes to: (MACROS FLOAT.INDEXSWAPELTS FLOATINDEXAREF GENERIC.SWAPELTS INDEXAREF
GENERIC.INDEXSWAPELTS FLOAT.SWAPELTS)
(VARS ARRAYSORTERCOMS)
(FNS FLOAT.INDEXQSFENCE FLOAT.INDEXINSERTIONSORT FLOAT.INDEXQUICKSORT
INDEXFLOATQUICKSORT GENERIC.QSFENCE GENERIC.QUICKSORT GENERIC.INSERTIONSORT
ARRAYSORT FLOATARRAYSORT INDEXARRAYSORT GENERIC.INDEXQSFENCE
GENERIC.INDEXQUICKSORT GENERIC.INDEXINSERTIONSORT ARRAYQUICKSORT
INDEXQUICKSORT FLOAT.QSFENCE FLOAT.INSERTIONSORT FLOAT.QUICKSORT
FLOATARRAYQUICKSORT)
previous date: "18-Mar-86 23:17:31" {QV}<PEDERSEN>LISP>ARRAYSORTER.;1)
(* Copyright (c) 1986 by Xerox Corporation. All rights reserved.)
(PRETTYCOMPRINT ARRAYSORTERCOMS)
(RPAQQ ��ARRAYSORTERCOMS�� ((FNS ARRAYSORT GENERIC.INDEXINSERTIONSORT GENERIC.INDEXQSFENCE
GENERIC.INDEXQUICKSORT GENERIC.INSERTIONSORT GENERIC.QSFENCE
GENERIC.QUICKSORT INDEXARRAYSORT)
(MACROS GENERIC.INDEXSWAPELTS GENERIC.SWAPELTS INDEXAREF)))
(DEFINEQ
(��ARRAYSORT��
[LAMBDA (��ARRAY�� COMPAREFN) ��(* jop: "20-Mar-86 14:20")��
��(* * Sort the 1-dimensional CMLArray ARRAY using the ordering given by COMPAREFN. ARRAY is sorted in place, i.e. ��
��destructively. Returns ARRAY.)��
(��if�� (��NOT�� (��AND�� (��type?�� ARRAY ARRAY)
(��EQL�� (��ARRAY-RANK�� ARRAY)
1)))
��then�� (��HELP�� "Not 1-Dimensional array" ARRAY))
(��if�� (��NULL�� COMPAREFN)
��then�� (��SETQ�� COMPAREFN (��QUOTE�� ��LESSP��)))
(LET [(LOWER 0)
(UPPER (��SUB1�� (��ARRAY-TOTAL-SIZE�� ARRAY]
(��GENERIC.QUICKSORT�� ARRAY COMPAREFN LOWER UPPER)
(��GENERIC.INSERTIONSORT�� ARRAY COMPAREFN LOWER UPPER)
ARRAY])
(��GENERIC.INDEXINSERTIONSORT��
[LAMBDA (��ARRAY�� INDICES COMPAREFN LOWER UPPER) ��(* jop: "20-Mar-86 14:25")��
��(* * Sort elements {L..U} of the 1-dimensional CMLArray ARRAY using the ordering given by COMPAREFN.��
��NO argument checking! Returns the permutation to order ARRAY in INDICES. INTENDED FOR FEWER THAN 20 ELEMENTS, USE ��
��QuickSort FOR LARGER PROBLEMS!)��
(��bind�� ITHINDEX ITHELT ��for�� I ��from�� (��ADD1�� LOWER) ��to�� UPPER
��do��
��(* * Loop Invariant: ARRAY{L..I-1} are correctly ordered.)��
(��SETQ�� ITHINDEX (PAREF INDICES I))
(��SETQ�� ITHELT (��AREF�� ARRAY ITHINDEX))
(��bind�� (J ← I)
TEMP ��while�� (��AND�� (��GREATERP�� J LOWER)
(��NOT�� (��APPLY*�� COMPAREFN [��AREF�� ARRAY
(��SETQ�� TEMP
(PAREF INDICES
(��SUB1�� J]
ITHELT)))
��do�� (PASET TEMP INDICES J)
(��SETQ�� J (��SUB1�� J))
��finally�� (PASET ITHINDEX INDICES J))
��finally�� (��RETURN�� ARRAY])
(��GENERIC.INDEXQSFENCE��
[LAMBDA (��ARRAY�� INDICES COMPAREFN LOWER UPPER) ��(* jop: "20-Mar-86 12:29")��
��(* * Identify the partitioning element as the median-of-three estimate of the median. Reference: Sedgewick, R.��
��"Implementing Quicksort Programs" CACM vol. 21 no. 10 pp. 847--857.)��
(LET ((MIDLU (��QUOTIENT�� (��PLUS�� LOWER UPPER)
2))
(LPLUS1 (��ADD1�� LOWER))
TEMP)
(GENERIC.INDEXSWAPELTS INDICES MIDLU LPLUS1 TEMP)
(��if�� (��NOT�� (��APPLY*�� COMPAREFN (INDEXAREF ARRAY INDICES LPLUS1)
(INDEXAREF ARRAY INDICES UPPER)))
��then�� (GENERIC.INDEXSWAPELTS INDICES LPLUS1 UPPER TEMP))
(��if�� (��NOT�� (��APPLY*�� COMPAREFN (INDEXAREF ARRAY INDICES LOWER)
(INDEXAREF ARRAY INDICES UPPER)))
��then�� (GENERIC.INDEXSWAPELTS INDICES LOWER UPPER TEMP))
(��if�� (��NOT�� (��APPLY*�� COMPAREFN (INDEXAREF ARRAY INDICES LPLUS1)
(INDEXAREF ARRAY INDICES LOWER)))
��then�� (GENERIC.INDEXSWAPELTS INDICES LPLUS1 LOWER TEMP])
(��GENERIC.INDEXQUICKSORT��
[LAMBDA (��ARRAY�� INDICES COMPAREFN LOWER UPPER) ��(* jop: "20-Mar-86 12:30")��
��(* * Reference: Sedgewick, R. "Implementing Quicksort Programs" CACM vol. 21 no. 10 pp. 847--857.)��
(��if�� (��GREATERP�� (��DIFFERENCE�� UPPER LOWER)
10)
��then�� (��GENERIC.INDEXQSFENCE�� ARRAY INDICES COMPAREFN LOWER UPPER)
��(* Identify the partitioning element as the ��
��median-of-three estimate of the median.)��
��(* * Perform the partitioning.)��
(��bind�� (I ← (��ADD1�� LOWER))
(J ← UPPER)
(XL ← (INDEXAREF ARRAY INDICES LOWER))
FINISHED TEMP ��while�� (��NOT�� FINISHED)
��do�� (��repeatwhile�� (��APPLY*�� COMPAREFN (INDEXAREF ARRAY INDICES I)
XL)
��do�� (��SETQ�� I (��ADD1�� I)))
(��repeatwhile�� (��NOT�� (��APPLY*�� COMPAREFN (INDEXAREF ARRAY INDICES J)
XL))
��do�� (��SETQ�� J (��SUB1�� J)))
(��if�� (��LESSP�� J I)
��then�� (��SETQ�� FINISHED T)
��else�� (GENERIC.INDEXSWAPELTS INDICES I J TEMP))
��finally�� (GENERIC.INDEXSWAPELTS INDICES LOWER J TEMP)
��(* Now work recursively on the larger then the smaller��
��subfile.)��
(��if�� (��GREATERP�� (��DIFFERENCE�� J LOWER)
(��ADD1�� (��DIFFERENCE�� UPPER I)))
��then�� (��GENERIC.INDEXQUICKSORT�� ARRAY INDICES COMPAREFN LOWER
(��SUB1�� J))
(��GENERIC.INDEXQUICKSORT�� ARRAY INDICES COMPAREFN I UPPER)
��else�� (��GENERIC.INDEXQUICKSORT�� ARRAY INDICES COMPAREFN I UPPER)
(��GENERIC.INDEXQUICKSORT�� ARRAY INDICES COMPAREFN LOWER
(��SUB1�� J])
(��GENERIC.INSERTIONSORT��
[LAMBDA (��ARRAY�� COMPAREFN LOWER UPPER) ��(* jop: "20-Mar-86 14:20")��
��(* * Sort elements (LOWER .. UPPER) of the 1-dimensional CMLArray ARRAY using the ordering given by COMPAREFN.��
��ARRAY is sorted in place, i.e. destructively. NO argument checking! Returns ARRAY. INTENDED FOR FEWER THAN 20 ��
��ELEMENTS, USE QuickSort FOR LARGER PROBLEMS!)��
(��for�� I ��from�� (��ADD1�� LOWER) ��to�� UPPER
��do��
��(* * Loop Invariant: ARRAY{L..I-1} are correctly ordered.)��
(��bind�� (ITH ← (��AREF�� ARRAY I))
(J ← I)
TEMP ��while�� (��AND�� (��GREATERP�� J LOWER)
(��NOT�� (��APPLY*�� COMPAREFN (��SETQ�� TEMP (��AREF�� ARRAY
(��SUB1��
J)))
ITH)))
��do�� (��ASET�� TEMP ARRAY J)
(��SETQ�� J (��SUB1�� J))
��finally�� (��ASET�� ITH ARRAY J))
��finally�� (��RETURN�� ARRAY])
(��GENERIC.QSFENCE��
[LAMBDA (��ARRAY�� COMPAREFN LOWER UPPER) ��(* jop: "20-Mar-86 12:22")��
��(* * Identify the partitioning element as the median-of-three estimate of the median. Reference: Sedgewick, R.��
��"Implementing Quicksort Programs" CACM vol. 21 no. 10 pp. 847--857.)��
(LET ((MIDLU (��QUOTIENT�� (��PLUS�� LOWER UPPER)
2))
(LPLUS1 (��ADD1�� LOWER))
TEMP)
(GENERIC.SWAPELTS ARRAY MIDLU LPLUS1 TEMP)
(��if�� (��NOT�� (��APPLY*�� COMPAREFN (��AREF�� ARRAY LPLUS1)
(��AREF�� ARRAY UPPER)))
��then�� (GENERIC.SWAPELTS ARRAY LPLUS1 UPPER TEMP))
(��if�� (��NOT�� (��APPLY*�� COMPAREFN (��AREF�� ARRAY LOWER)
(��AREF�� ARRAY UPPER)))
��then�� (GENERIC.SWAPELTS ARRAY LOWER UPPER TEMP))
(��if�� (��NOT�� (��APPLY*�� COMPAREFN (��AREF�� ARRAY LPLUS1)
(��AREF�� ARRAY LOWER)))
��then�� (GENERIC.SWAPELTS ARRAY LPLUS1 LOWER TEMP])
(��GENERIC.QUICKSORT��
[LAMBDA (��ARRAY�� COMPAREFN LOWER UPPER) ��(* jop: "20-Mar-86 14:18")��
��(* * Reference: Sedgewick, R. "Implementing Quicksort Programs" CACM vol. 21 no. 10 pp. 847--857.)��
(��if�� (��GREATERP�� (��DIFFERENCE�� UPPER LOWER)
10)
��then�� (��GENERIC.QSFENCE�� ARRAY COMPAREFN LOWER UPPER)
��(* Identify the partitioning element as the ��
��median-of-three estimate of the median.)��
��(* * Perform the partitioning.)��
(��bind�� (I ← (��ADD1�� LOWER))
(J ← UPPER)
(XL ← (��AREF�� ARRAY LOWER))
FINISHED TEMP ��while�� (��NOT�� FINISHED)
��do�� (��repeatwhile�� (��APPLY*�� COMPAREFN (��AREF�� ARRAY I)
XL)
��do�� (��SETQ�� I (��ADD1�� I)))
(��repeatwhile�� (��NOT�� (��APPLY*�� COMPAREFN (��AREF�� ARRAY J)
XL))
��do�� (��SETQ�� J (��SUB1�� J)))
(��if�� (��LESSP�� J I)
��then�� (��SETQ�� FINISHED T)
��else�� (GENERIC.SWAPELTS ARRAY I J TEMP))
��finally�� (GENERIC.SWAPELTS ARRAY LOWER J TEMP)
��(* Now work recursively on the larger then the smaller��
��subarray.)��
(��if�� (��GREATERP�� (��DIFFERENCE�� J LOWER)
(��ADD1�� (��DIFFERENCE�� UPPER I)))
��then�� (��GENERIC.QUICKSORT�� ARRAY COMPAREFN LOWER (��SUB1�� J))
(��GENERIC.QUICKSORT�� ARRAY COMPAREFN I UPPER)
��else�� (��GENERIC.QUICKSORT�� ARRAY COMPAREFN I UPPER)
(��GENERIC.QUICKSORT�� ARRAY COMPAREFN LOWER (��SUB1�� J])
(��INDEXARRAYSORT��
[LAMBDA (��ARRAY�� INDICES COMPAREFN) ��(* jop: "20-Mar-86 14:25")��
��(* * Sort the 1-dimensional CMLArray ARRAY using the ordering given by COMPAREFN. INDICES is a vector of elttype T.��
��Returns the permutation to order ARRAY in INDICES.)��
(��if�� (��NOT�� (��AND�� (��type?�� ARRAY ARRAY)
(��EQL�� (��ARRAY-RANK�� ARRAY)
1)))
��then�� (��HELP�� "Not 1-Dimensional array" ARRAY))
(��if�� (��NULL�� INDICES)
��then�� (��SETQ�� INDICES (��MAKE-ARRAY�� (��ARRAY-TOTAL-SIZE�� ARRAY)))
��elseif�� (��NOT�� (��AND�� (��type?�� ARRAY INDICES)
(��EQL�� (��ARRAY-RANK�� INDICES)
1)
(��EQL�� (��ARRAY-TOTAL-SIZE�� INDICES)
(��ARRAY-TOTAL-SIZE�� ARRAY))
(��EQ�� (��ARRAY-ELEMENT-TYPE�� INDICES)
T)))
��then�� (��HELP�� "Illegal Index array" INDICES))
(��for�� I ��from�� 0 ��to�� (��SUB1�� (��ARRAY-TOTAL-SIZE�� INDICES)) ��do�� (PASET I INDICES I))
(��if�� (��NULL�� COMPAREFN)
��then�� (��SETQ�� COMPAREFN (��QUOTE�� ��LESSP��)))
(LET [(LOWER 0)
(UPPER (��SUB1�� (��ARRAY-TOTAL-SIZE�� ARRAY]
(��GENERIC.INDEXQUICKSORT�� ARRAY INDICES COMPAREFN LOWER UPPER)
(��GENERIC.INDEXINSERTIONSORT�� ARRAY INDICES COMPAREFN LOWER UPPER)
INDICES])
)
(DECLARE: EVAL@COMPILE
[DEFMACRO GENERIC.INDEXSWAPELTS (INDICES I J &OPTIONAL (TEMP NIL BTEMP))
(* *)
(if BTEMP then (BQUOTE (PROGN (SETQ , TEMP (PAREF , INDICES , I))
(PASET (PAREF , INDICES , J)
, INDICES , I)
(PASET , TEMP , INDICES , J)))
else
(BQUOTE (LET ((TEMP (PAREF , INDICES , I)))
(PASET (PAREF , INDICES , J)
, INDICES , I)
(PASET TEMP , INDICES , J]
[DEFMACRO GENERIC.SWAPELTS (ARRAY I J &OPTIONAL (TEMP NIL BTEMP))
(* *)
(if BTEMP then (BQUOTE (PROGN (SETQ , TEMP (AREF , ARRAY , I))
(ASET (AREF , ARRAY , J)
, ARRAY , I)
(ASET , TEMP , ARRAY , J)))
else
(BQUOTE (LET ((TEMP (AREF , ARRAY , I)))
(ASET (AREF , ARRAY , J)
, ARRAY , I)
(ASET TEMP , ARRAY , J]
[DEFMACRO INDEXAREF (ARRAY INDICES INDEX)
(BQUOTE (AREF (\, ARRAY)
(PAREF (\, INDICES)
(\, INDEX]
)
(PUTPROPS ARRAYSORTER COPYRIGHT ("Xerox Corporation" 1986))
(DECLARE: DONTCOPY
(FILEMAP (NIL (1082 10604 (ARRAYSORT 1092 . 1822) (GENERIC.INDEXINSERTIONSORT 1824 . 2876) (
GENERIC.INDEXQSFENCE 2878 . 3917) (GENERIC.INDEXQUICKSORT 3919 . 5719) (GENERIC.INSERTIONSORT 5721 .
6669) (GENERIC.QSFENCE 6671 . 7623) (GENERIC.QUICKSORT 7625 . 9292) (INDEXARRAYSORT 9294 . 10602)))))
STOP