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Bug 690544 - Script-fu (rand 4294967295) hangs on machines with 64-bit longs

This commit is contained in:
Pedro Gimeno 2016-05-29 15:03:13 +02:00 committed by Michael Schumacher
parent b3c6163450
commit 139801f222
1 changed files with 93 additions and 8 deletions
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101
plug-ins/script-fu/scripts/script-fu-compat.init
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@ -13,6 +13,8 @@
;The random number generator routines below have been slightly reformatted.
;A couple of define blocks which are not needed have been commented out.
;It has also been extended to enable it to generate numbers with exactly 31
;bits or more.
;The original file was called rand2.scm and can be found in:
;http://www-2.cs.cmu.edu/afs/cs/project/ai-repository/ai/lang/scheme/code/math/random/
@ -65,15 +67,98 @@
; Bust (abcde) 0.3024 0.3058
(define (random n)
(let* (
(n (inexact->exact (truncate n)))
(M 2147483647)
(slop (modulo M n))
(define (internal-random n)
(let* (
(n (inexact->exact (truncate n)))
(M 2147483647)
(slop (modulo M (abs n)))
)
(let loop ((r (msrg-rand)))
(if (>= r slop)
(modulo r n)
(loop (msrg-rand))
)
)
)
)
; Negative numbers have a bigger range in twos complement platforms
; (nearly all platforms out there) than positive ones, so we deal with
; the numbers in negative form.
(if (> n 0)
(+ n (random (- n)))
(if (>= n -2147483647)
(internal-random n)
; 31-or-more-bits number requested - needs multiple extractions
; because we don't generate enough random bits.
(if (>= n -1152921504606846975)
; Up to 2^60-1, two extractions are enough
(let ((q (- (quotient (+ n 1) 1073741824) 1))) ; q=floor(n/2^30)
(let loop ()
(let ((big (+ (* (internal-random q) 1073741824)
(internal-random -1073741824)
)
))
(if (> big n)
big
(loop)
)
)
)
)
; From 2^60 up, we do three extractions.
; The code is better understood if seen as generating three
; digits in base 2^30. q is the maximum value the first digit
; can take. The other digits can take the full range.
;
; The strategy is to generate a random number digit by digit.
; Here's an example in base 10. Say the input n is 348
; (thus requesting a number between 0 and 347). Then the algorithm
; first calls (internal-random 4) to get a digit betweeen 0 and 3,
; then (internal-random 10) twice to get two more digits between
; 0 and 9. Say the result is 366: since it is greater than 347,
; it's discarded and the process restarted. When the result is
; <= 347, that's the returned value. The probability of it being
; greater than the max is always strictly less than 1/2.
;
; This is the same idea but in base 2^30 (1073741824). The
; first digit's weight is (2^30)^2 = 1152921504606846976,
; similarly to how in our base 10 example, the first digit's
; weight is 10^2 = 100. In the base 10 example we first divide
; the target number 348 by 100, taking the ceiling, to get 4.
; Here we divide by (2^30)^2 instead, taking the ceiling too.
;
; The math is a bit obscured by the fact that we generate
; the digits as negative, so that the result is negative as
; well, but it's really the same thing. Changing the sign of
; every digit just changes the sign of the result.
;
; This method works for n up to (2^30)^2*(2^31-1) which is
; 2475880077417839045191401472 (slightly under 91 bits). That
; covers the 64-bit range comfortably, and some more. If larger
; numbers are needed, they'll have to be composed with a
; user-defined procedure.
(if (>= n -2475880077417839045191401472)
(let ((q (- (quotient (+ n 1) 1152921504606846976) 1))) ; q=floor(n/2^60)
(let loop ()
(let ((big (+ (* (internal-random q) 1152921504606846976)
(* (internal-random -1073741824) 1073741824)
(internal-random -1073741824)
)
))
(if (> big n)
big
(loop)
)
)
)
)
(error "requested (random n) range too large")
)
(let loop ((r (msrg-rand)))
(if (> r slop)
(modulo r n)
(loop (msrg-rand))
)
)
)