This is odd -- I thought SBCL was fully unicode compliant. At the least, it's iso-latin-1 compliant, and u with an umlaut is in that character set. I'm running SBCL too and have no problem with this.
Liam
On Mon, May 24, 2010 at 7:14 AM, Leo sdl.web@gmail.com wrote:
Hello,
SBCL failed to start because of file rng-types.lisp contains some non ascii names. I am using 1.0.34 on linux.
These default coding systems were tried to encode text in the buffer `rng-types.lisp': (us-ascii-unix (9359 . 252)) However, each of them encountered characters it couldn't encode: us-ascii-unix cannot encode these: ü
Click on a character (or switch to this window by `C-x o' and select the characters by RET) to jump to the place it appears, where `C-u C-x =' will give information about it.
Leo
diff --git a/random/rng-types.lisp b/random/rng-types.lisp index cc3b83e..7dc12dd 100644 --- a/random/rng-types.lisp +++ b/random/rng-types.lisp @@ -182,7 +182,7 @@
(def-rng-type +ranlux+ ; FDL "The ranlux generator is an implementation of the original
- algorithm developed by Lüscher. It uses a
- algorithm developed by Luscher. It uses a
lagged-fibonacci-with-skipping algorithm to produce ``luxury random numbers''. It is a 24-bit generator, originally designed for single-precision IEEE floating point numbers. This implementation is @@ -192,23 +192,23 @@ The period of the generator is about 10^171. The algorithm has mathematically proven properties and it can provide truly decorrelated numbers at a known level of
- randomness. The default level of decorrelation recommended by Lüscher
- randomness. The default level of decorrelation recommended by Luscher
is provided by this generator, while *ranlux389* gives the highest level of randomness, with all 24 bits decorrelated. Both types of generator use 24 words of state per generator. For more information see,
- M. Lüscher, ``A portable high-quality random number generator for
- M. Luscher, ``A portable high-quality random number generator for
lattice field theory calculations'', Computer Physics Communications, 79 (1994) 100--110. F. James, ``RANLUX: A Fortran implementation of the high-quality
- pseudo-random number generator of Lüscher'', Computer Physics
- pseudo-random number generator of Luscher'', Computer Physics
Communications, 79 (1994) 111--114.")
(def-rng-type +ranlux389+)
(def-rng-type +ranlxs0+ "This generator is a second-generation version of the
- *ranlux* algorithm of Lüscher, which produces ``luxury random
- *ranlux* algorithm of Luscher, which produces ``luxury random
numbers''. This generator provides single precision output (24 bits) at three luxury levels *ranlxs0*, *ranlxs1* and *ranlxs2*. It uses double-precision floating point arithmetic internally and can be
-- CCL-USER> (if you fail to plan (plan to fail))
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