1.2.8: will be tagged as "sbcl-1.2.8"
[sbcl.git] / contrib / compiler-extras.lisp
blob140b563daca10a09ce1c9e23e1cdacf8bc0359a8
1 ;;;; The files
2 ;;;; compiler-extras.lisp
3 ;;;; code-extras.lisp
4 ;;;; hold things that I (WHN) am working on which are sufficiently
5 ;;;; closely tied to the system that they want to be under the same
6 ;;;; revision control, but which aren't yet ready for prime time.
7 ;;;;
8 ;;;; Unless you like living dangerously, you don't want to be running
9 ;;;; these. But there might be some value to looking at these files to
10 ;;;; see whether I'm working on optimizing something whose performance
11 ;;;; you care about, so that you can patch it, or write test cases for
12 ;;;; it, or pester me to release it, or whatever.
13 ;;;;
14 ;;;; Throughout 0.6.x, these were mostly performance fixes. Fixes for
15 ;;;; logical bugs tend to go straight into the system, but fixes for
16 ;;;; performance problems can easily introduce logical bugs, and no
17 ;;;; one's going to thank me for prematurely replacing old slow
18 ;;;; correct code with new fast code that I haven't yet discovered to
19 ;;;; be wrong.
21 (in-package "SB-C")
23 (declaim (optimize (speed 1) (space 2)))
25 ;;; TO DO for DEFTRANSFORM FILL:
26 ;;; ?? This DEFTRANSFORM, and the old DEFTRANSFORMs, should only
27 ;;; apply when SPEED > SPACE.
28 ;;; ?? Add test cases.
30 #+nil ; not tested yet..
31 (deftransform replace ((seq1 seq2 &key (start1 0) end1 (start2 0) end2)
32 (vector vector &key
33 (:start1 index) (:end1 (or index null))
34 (:start2 index) (:end2 (or index null)))
36 ;; This is potentially an awfully big transform
37 ;; (if things like (EQ SEQ1 SEQ2) aren't known
38 ;; at runtime). We need to make it available
39 ;; inline, since otherwise there's no way to do
40 ;; it efficiently on all array types, but it
41 ;; probably doesn't belong inline all the time.
42 :policy (> speed (1+ space)))
43 "open code"
44 (let ((et1 (upgraded-element-type-specifier-or-give-up seq1))
45 (et2 (upgraded-element-type-specifier-or-give-up seq2)))
46 `(let* ((n-copied (min (- end1 start1) (- end2 start2)))
47 (effective-end1 (+ start1 n-copied)))
48 (if (eq seq1 seq2)
49 (with-array-data ((seq seq1)
50 (start (min start1 start2))
51 (end (max end1 end2)))
52 (declare (type (simple-array ,et1 1) seq))
53 (if (<= start1 start2)
54 (let ((index2 start2))
55 (declare (type index index2))
56 (loop for index1 of-type index
57 from start1 below effective-end1 do
58 (setf (aref seq index1)
59 (aref seq index2))
60 (incf index2)))
61 (let ((index2 (1- end2)))
62 (declare (type (integer -2 #.most-positive-fixnum) index2))
63 (loop for index1 of-type index-or-minus-1
64 from (1- effective-end1) downto start1 do
65 (setf (aref seq index1)
66 (aref seq index2))
67 (decf index2)))))
68 (with-array-data ((seq1 seq1) (start1 start1) (end1 end1))
69 (declare (type (simple-array ,et1 1) seq1))
70 (with-array-data ((seq2 seq2) (start2 start2) (end2 end2))
71 (declare (type (simple-array ,et2 1) seq2))
72 (let ((index2 start2))
73 (declare (type index index2))
74 (loop for index1 of-type index
75 from start1 below effective-end1 do
76 (setf (aref seq index1)
77 (aref seq index2))
78 (incf index2))))))
79 seq1)))
81 ;;; Boyer-Moore search for strings.
82 ;;;
83 ;;; TODO:
84 ;;; * START/END keywords
85 ;;; * a literal :TEST #'CHAR= or :TEST #'EQL is OK (also #'EQ)
86 ;;; * fewer hardcoded constants
87 ;;; * :FROM-END
88 ;;;
89 ;;; * investigate whether we can make this work with a hashtable and a
90 ;;; default for "not in pattern"
91 (deftransform search ((pattern text)
92 (simple-base-string simple-base-string))
93 (unless (constant-lvar-p pattern)
94 (give-up-ir1-transform))
95 (let* ((pattern (lvar-value pattern))
96 (bad-character (make-array 256 :element-type 'fixnum :initial-element (length pattern)))
97 (temp (make-array (length pattern) :element-type 'fixnum))
98 (good-suffix (make-array (length pattern) :element-type 'fixnum :initial-element (1- (length pattern)))))
100 (dotimes (i (1- (length pattern)))
101 (setf (aref bad-character (char-code (aref pattern i)))
102 (- (length pattern) 1 i)))
104 (setf (aref temp (1- (length pattern))) (length pattern))
105 (loop with g = (1- (length pattern))
106 with f = (1- (length pattern)) ; XXXXXX?
107 for i downfrom (- (length pattern) 2) above 0
108 if (and (> i g)
109 (< (aref temp (- (+ i (length pattern)) 1 f)) (- i g)))
110 do (setf (aref temp i) (aref temp (- (+ i (length pattern)) 1 f)))
111 else
112 do (progn
113 (when (< i g)
114 (setf g i))
115 (setf f i)
116 (do ()
117 ((not
118 (and (>= g 0)
119 (char= (aref pattern g)
120 (aref pattern (- (+ g (length pattern)) 1 f))))))
121 (decf g))
122 (setf (aref temp i) (- f g))))
124 (loop with j = 0
125 for i downfrom (1- (length pattern)) to -1
126 if (or (= i -1) (= (aref temp i) (1+ i)))
127 do (do ()
128 ((>= j (- (length pattern) 1 i)))
129 (when (= (aref good-suffix j) (length pattern))
130 (setf (aref good-suffix j) (- (length pattern) 1 i)))
131 (incf j)))
133 (loop for i from 0 below (1- (length pattern))
134 do (setf (aref good-suffix (- (length pattern) 1 (aref temp i)))
135 (- (length pattern) 1 i)))
137 `(let ((good-suffix ,good-suffix)
138 (bad-character ,bad-character))
139 (declare (optimize speed (safety 0)))
140 (block search
141 (do ((j 0))
142 ((> j (- (length text) (length pattern))))
143 (declare (fixnum j))
144 (do ((i (1- (length pattern)) (1- i)))
145 ((< i 0) (return-from search j))
146 (declare (fixnum i))
147 (when (char/= (aref pattern i) (aref text (+ i j)))
148 (incf j (max (aref good-suffix i)
149 (+ (- (aref bad-character (char-code (aref text (+ i j))))
150 (length pattern))
151 (1+ i))))
152 (return))))))))