1 ;;;; This implementation of RANDOM is based on the Mersenne Twister random
2 ;;;; number generator "MT19937" due to Matsumoto and Nishimura. See:
3 ;;;; Makoto Matsumoto and T. Nishimura, "Mersenne twister: A
4 ;;;; 623-dimensionally equidistributed uniform pseudorandom number
5 ;;;; generator.", ACM Transactions on Modeling and Computer Simulation,
8 ;;;; This software is part of the SBCL system. See the README file for
11 ;;;; This software is derived from the CMU CL system, which was
12 ;;;; written at Carnegie Mellon University and released into the
13 ;;;; public domain. The software is in the public domain and is
14 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
15 ;;;; files for more information.
17 (in-package "SB!KERNEL")
21 (def!method make-load-form ((random-state random-state) &optional environment)
22 (make-load-form-saving-slots random-state :environment environment))
24 (def!method print-object ((state random-state) stream)
25 (if (and *print-readably* (not *read-eval*))
26 (error 'print-not-readable :object state)
27 (format stream "#S(~S ~S #.~S)"
34 ',(coerce (random-state-state state) 'list)))))
36 ;;; The state is stored in a (simple-array (unsigned-byte 32) (627))
37 ;;; wrapped in a random-state structure:
39 ;;; 0-1: Constant matrix A. [0, #x9908b0df]
43 ;;; Generate and initialize a new random-state array. Index is
44 ;;; initialized to 1 and the states to 32bit integers excluding zero.
46 ;;; Seed - A 32bit number, not zero.
48 ;;; Apparently uses the generator Line 25 of Table 1 in
49 ;;; [KNUTH 1981, The Art of Computer Programming, Vol. 2 (2nd Ed.), pp102]
50 (defun init-random-state (&optional (seed 4357) state)
51 (declare (type (integer 1 #xffffffff) seed))
52 (let ((state (or state (make-array 627 :element-type '(unsigned-byte 32)))))
53 (declare (type (simple-array (unsigned-byte 32) (627)) state))
54 (setf (aref state 1) #x9908b0df)
55 (setf (aref state 2) 1)
56 (setf (aref state 3) seed)
59 (declare (type (mod 625) k))
60 (setf (aref state (+ 3 k))
61 (logand (* 69069 (aref state (+ 3 (1- k)))) #xffffffff)))
64 (defvar *random-state*)
65 (defun !random-cold-init ()
66 (/show0 "entering !RANDOM-COLD-INIT")
67 (setf *random-state* (%make-random-state))
68 (/show0 "returning from !RANDOM-COLD-INIT"))
70 (defun make-random-state (&optional state)
72 "Make a random state object. If STATE is not supplied, return a copy
73 of the default random state. If STATE is a random state, then return a
74 copy of it. If STATE is T then return a random state generated from
76 (/show0 "entering MAKE-RANDOM-STATE")
77 (flet ((copy-random-state (state)
78 (/show0 "entering COPY-RANDOM-STATE")
79 (let ((state (random-state-state state))
81 (make-array 627 :element-type '(unsigned-byte 32))))
82 (/show0 "made NEW-STATE, about to DOTIMES")
84 (setf (aref new-state i) (aref state i)))
85 (/show0 "falling through to %MAKE-RANDOM-STATE")
86 (%make-random-state :state new-state))))
87 (/show0 "at head of ETYPECASE in MAKE-RANDOM-STATE")
91 (copy-random-state *random-state*))
93 (/show0 "RANDOM-STATE-P clause")
94 (copy-random-state state))
97 (%make-random-state :state (init-random-state
98 (logand (get-universal-time)
103 ;;; This function generates a 32bit integer between 0 and #xffffffff
105 #!-sb-fluid (declaim (inline random-chunk))
106 ;;; portable implementation
107 (defconstant mt19937-n 624)
108 (defconstant mt19937-m 397)
109 (defconstant mt19937-upper-mask #x80000000)
110 (defconstant mt19937-lower-mask #x7fffffff)
111 (defconstant mt19937-b #x9D2C5680)
112 (defconstant mt19937-c #xEFC60000)
114 (defun random-mt19937-update (state)
115 (declare (type (simple-array (unsigned-byte 32) (627)) state)
116 (optimize (speed 3) (safety 0)))
118 (declare (type (unsigned-byte 32) y))
120 ((>= kk (+ 3 (- mt19937-n mt19937-m))))
121 (declare (type (mod 628) kk))
122 (setf y (logior (logand (aref state kk) mt19937-upper-mask)
123 (logand (aref state (1+ kk)) mt19937-lower-mask)))
124 (setf (aref state kk) (logxor (aref state (+ kk mt19937-m))
125 (ash y -1) (aref state (logand y 1)))))
126 (do ((kk (+ (- mt19937-n mt19937-m) 3) (1+ kk)))
127 ((>= kk (+ (1- mt19937-n) 3)))
128 (declare (type (mod 628) kk))
129 (setf y (logior (logand (aref state kk) mt19937-upper-mask)
130 (logand (aref state (1+ kk)) mt19937-lower-mask)))
131 (setf (aref state kk) (logxor (aref state (+ kk (- mt19937-m mt19937-n)))
132 (ash y -1) (aref state (logand y 1)))))
133 (setf y (logior (logand (aref state (+ 3 (1- mt19937-n)))
135 (logand (aref state 3) mt19937-lower-mask)))
136 (setf (aref state (+ 3 (1- mt19937-n)))
137 (logxor (aref state (+ 3 (1- mt19937-m)))
138 (ash y -1) (aref state (logand y 1)))))
141 (defun random-chunk (state)
142 (declare (type random-state state))
143 (let* ((state (random-state-state state))
145 (declare (type (mod 628) k))
146 (when (= k mt19937-n)
147 (random-mt19937-update state)
149 (setf (aref state 2) (1+ k))
150 (let ((y (aref state (+ 3 k))))
151 (declare (type (unsigned-byte 32) y))
152 (setf y (logxor y (ash y -11)))
153 (setf y (logxor y (ash (logand y (ash mt19937-b -7)) 7)))
154 (setf y (logxor y (ash (logand y (ash mt19937-c -15)) 15)))
155 (setf y (logxor y (ash y -18)))
158 ;;; Using inline VOP support, only available on the x86 so far.
160 ;;; FIXME: It would be nice to have some benchmark numbers on this.
161 ;;; My inclination is to get rid of the nonportable implementation
162 ;;; unless the performance difference is just enormous.
164 (defun random-chunk (state)
165 (declare (type random-state state))
166 (sb!vm::random-mt19937 (random-state-state state)))
168 #!-sb-fluid (declaim (inline big-random-chunk))
169 (defun big-random-chunk (state)
170 (declare (type random-state state))
171 (logand (1- (expt 2 64))
172 (logior (ash (random-chunk state) 32)
173 (random-chunk state))))
175 ;;; Handle the single or double float case of RANDOM. We generate a
176 ;;; float between 0.0 and 1.0 by clobbering the significand of 1.0
177 ;;; with random bits, then subtracting 1.0. This hides the fact that
178 ;;; we have a hidden bit.
179 #!-sb-fluid (declaim (inline %random-single-float %random-double-float))
180 (declaim (ftype (function ((single-float (0f0)) random-state)
182 %random-single-float))
183 (defun %random-single-float (arg state)
184 (declare (type (single-float (0f0)) arg)
185 (type random-state state))
187 (- (make-single-float
188 (dpb (ash (random-chunk state)
189 (- sb!vm:single-float-digits random-chunk-length))
190 sb!vm:single-float-significand-byte
191 (single-float-bits 1.0)))
193 (declaim (ftype (function ((double-float (0d0)) random-state)
195 %random-double-float))
199 (defun %random-double-float (arg state)
200 (declare (type (double-float (0d0)) arg)
201 (type random-state state))
202 (* (float (random-chunk state) 1d0) (/ 1d0 (expt 2 32))))
206 (defun %random-double-float (arg state)
207 (declare (type (double-float (0d0)) arg)
208 (type random-state state))
210 (- (sb!impl::make-double-float
211 (dpb (ash (random-chunk state)
212 (- sb!vm:double-float-digits random-chunk-length 32))
213 sb!vm:double-float-significand-byte
214 (sb!impl::double-float-high-bits 1d0))
215 (random-chunk state))
218 ;;; using a faster inline VOP
220 (defun %random-double-float (arg state)
221 (declare (type (double-float (0d0)) arg)
222 (type random-state state))
223 (let ((state-vector (random-state-state state)))
225 (- (sb!impl::make-double-float
226 (dpb (ash (sb!vm::random-mt19937 state-vector)
227 (- sb!vm:double-float-digits random-chunk-length
229 sb!vm:double-float-significand-byte
230 (sb!impl::double-float-high-bits 1d0))
231 (sb!vm::random-mt19937 state-vector))
237 (defun %random-integer (arg state)
238 (declare (type (integer 1) arg) (type random-state state))
239 (let ((shift (- random-chunk-length random-integer-overlap)))
240 (do ((bits (random-chunk state)
241 (logxor (ash bits shift) (random-chunk state)))
242 (count (+ (integer-length arg)
243 (- random-integer-extra-bits shift))
247 (declare (fixnum count)))))
249 (defun random (arg &optional (state *random-state*))
250 (declare (inline %random-single-float %random-double-float
251 #!+long-float %random-long-float))
253 ((and (fixnump arg) (<= arg random-fixnum-max) (> arg 0))
254 (rem (random-chunk state) arg))
255 ((and (typep arg 'single-float) (> arg 0.0f0))
256 (%random-single-float arg state))
257 ((and (typep arg 'double-float) (> arg 0.0d0))
258 (%random-double-float arg state))
260 ((and (typep arg 'long-float) (> arg 0.0l0))
261 (%random-long-float arg state))
262 ((and (integerp arg) (> arg 0))
263 (%random-integer arg state))
265 (error 'simple-type-error
266 :expected-type '(or (integer 1) (float (0))) :datum arg
267 :format-control "~@<Argument is neither a positive integer nor a ~
268 positive float: ~2I~_~S~:>"
269 :format-arguments (list arg)))))