| blob | 6c449d152282d7b8274b100f7d65d684bf6b8e95 |
1 ;;;; hashing functions
3 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; more information.
5 ;;;;
6 ;;;; This software is derived from the CMU CL system, which was
7 ;;;; written at Carnegie Mellon University and released into the
8 ;;;; public domain. The software is in the public domain and is
9 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
10 ;;;; files for more information.
14 ;;; the depthoid explored when calculating hash values
15 ;;;
16 ;;; "Depthoid" here is a sort of mixture of what Common Lisp ordinarily calls
17 ;;; depth and what Common Lisp ordinarily calls length; it's incremented either
18 ;;; when we descend into a compound object or when we step through elements of
19 ;;; a compound object.
21 \f
22 ;;;; mixing hash values
24 ;;; a function for mixing hash values
25 ;;;
26 ;;; desiderata:
27 ;;; * Non-commutativity keeps us from hashing e.g. #(1 5) to the
28 ;;; same value as #(5 1), and ending up in real trouble in some
29 ;;; special cases like bit vectors the way that CMUCL 18b SXHASH
30 ;;; does. (Under CMUCL 18b, SXHASH of any bit vector is 1..)
31 ;;; * We'd like to scatter our hash values over the entire possible range
32 ;;; of values instead of hashing small or common key values (like
33 ;;; 2 and NIL and #\a) to small FIXNUMs the way that the CMUCL 18b
34 ;;; SXHASH function does, again helping to avoid pathologies like
35 ;;; hashing all bit vectors to 1.
36 ;;; * We'd like this to be simple and fast, too.
37 ;;;
38 ;;; FIXME: Should this be INLINE?
43 ;; FIXME: We wouldn't need the nasty (SAFETY 0) here if the compiler
44 ;; were smarter about optimizing ASH. (Without the THE FIXNUM below,
45 ;; and the (SAFETY 0) declaration here to get the compiler to trust
46 ;; it, the sbcl-0.5.0m cross-compiler running under Debian
47 ;; cmucl-2.4.17 turns the ASH into a full call, requiring the
48 ;; UNSIGNED-BYTE 32 argument to be coerced to a bignum, requiring
49 ;; consing, and thus generally obliterating performance.)
52 ;; the ideas here:
53 ;; * Bits diffuse in both directions (shifted left by up to 2 places
54 ;; in the calculation of XY, and shifted right by up to 5 places
55 ;; by the ASH).
56 ;; * The #'+ and #'LOGXOR operations don't commute with each other,
57 ;; so different bit patterns are mixed together as they shift
58 ;; past each other.
59 ;; * The arbitrary constant in the #'LOGXOR expression is intended
60 ;; to help break up any weird anomalies we might otherwise get
61 ;; when hashing highly regular patterns.
62 ;; (These are vaguely like the ideas used in many cryptographic
63 ;; algorithms, but we're not pushing them hard enough here for them
64 ;; to be cryptographically strong.)
70 xy
72 \f
73 ;;;; hashing strings
74 ;;;;
75 ;;;; Note that this operation is used in compiler symbol table lookups, so we'd
76 ;;;; like it to be fast.
80 ;; FIXME: As in MIX above, we wouldn't need (SAFETY 0) here if the
81 ;; cross-compiler were smarter about ASH, but we need it for sbcl-0.5.0m.
92 result))
93 ;;; test:
94 ;;; (let ((ht (make-hash-table :test 'equal)))
95 ;;; (do-all-symbols (symbol)
96 ;;; (let* ((string (symbol-name symbol))
97 ;;; (hash (%sxhash-substring string)))
98 ;;; (if (gethash hash ht)
99 ;;; (unless (string= (gethash hash ht) string)
100 ;;; (format t "collision: ~S ~S~%" string (gethash hash ht)))
101 ;;; (setf (gethash hash ht) string))))
102 ;;; (format t "final count=~W~%" (hash-table-count ht)))
114 \f
115 ;;;; the SXHASH function
118 ;; profiling SXHASH is hard, but we might as well try to make it go
119 ;; fast, in case it is the bottleneck somwhere. -- CSR, 2003-03-14
132 result))
137 result))))
160 ;; FIXME: It must surely be possible to do better
161 ;; than this. The problem is that a non-SIMPLE
162 ;; BIT-VECTOR could be displaced to another, with a
163 ;; non-zero offset -- so that significantly more
164 ;; work needs to be done using the %RAW-BITS
165 ;; approach. This will probably do for now.
171 ;; general, inefficient case of NUMBER
176 \f
177 ;;;; the PSXHASH function
179 ;;;; FIXME: This code does a lot of unnecessary full calls. It could be made
180 ;;;; more efficient (in both time and space) by rewriting it along the lines
181 ;;;; of the SXHASH code above.
183 ;;; like SXHASH, but for EQUALP hashing instead of EQUAL hashing
187 ;; Note: You might think it would be cleaner to use the ordering given in the
188 ;; table from Figure 5-13 in the EQUALP section of the ANSI specification
189 ;; here. So did I, but that is a snare for the unwary! Nothing in the ANSI
190 ;; spec says that HASH-TABLE can't be a STRUCTURE-OBJECT, and in fact our
191 ;; HASH-TABLEs *are* STRUCTURE-OBJECTs, so we need to pick off the special
192 ;; HASH-TABLE behavior before we fall through to the generic STRUCTURE-OBJECT
193 ;; comparison behavior.
208 ;; VECTORs have to be treated specially because ANSI specifies
209 ;; that we must respect fill pointers.
220 result)))
221 ;; CMU can compile SIMPLE-ARRAY operations so much more efficiently
222 ;; than the general case that it's probably worth picking off the
223 ;; common special cases.
226 ;;(format t "~&SIMPLE-STRING special case~%")
229 ;;(format t "~&SIMPLE-VECTOR special case~%")
232 ;; Any other array can be hashed by working with its underlying
233 ;; one-dimensional physical representation.
243 result))))
262 result))
283 result))
290 ;; FIXME: Check to make sure that the DEFTRANSFORM kicks in and the
291 ;; resulting code works without consing. (In Debian cmucl 2.4.17,
292 ;; it didn't.)
300 ;; values to be handled without consing.
317 #!+long-float
320 key
321 most-positive-double-float)
331 result))))))