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guile/libguile/random.c
Michael Livshin 1be6b49ccb * validate.h 
(SCM_NUM2{SIZE,PTRDIFF,SHORT,USHORT,BITS,UBITS,INT,UINT}[_DEF]):
new macros.

* unif.h: type renaming:
scm_array -> scm_array_t
scm_array_dim -> scm_array_dim_t
the old names are deprecated, all in-Guile uses changed.

* tags.h (scm_ubits_t): new typedef, representing unsigned
scm_bits_t.

* stacks.h: type renaming:
scm_info_frame -> scm_info_frame_t
scm_stack -> scm_stack_t
the old names are deprecated, all in-Guile uses changed.

* srcprop.h: type renaming:
scm_srcprops -> scm_srcprops_t
scm_srcprops_chunk -> scm_srcprops_chunk_t
the old names are deprecated, all in-Guile uses changed.

* gsubr.c, procs.c, print.c, ports.c, read.c, rdelim.c, ramap.c,
rw.c, smob.c, sort.c, srcprop.c, stacks.c, strings.c, strop.c,
strorder.c, strports.c, struct.c, symbols.c, unif.c, values.c,
vectors.c, vports.c, weaks.c:
various int/size_t -> size_t/scm_bits_t changes.

* random.h: type renaming:
scm_rstate -> scm_rstate_t
scm_rng -> scm_rng_t
scm_i_rstate -> scm_i_rstate_t
the old names are deprecated, all in-Guile uses changed.

* procs.h: type renaming:
scm_subr_entry -> scm_subr_entry_t
the old name is deprecated, all in-Guile uses changed.

* options.h (scm_option_t.val): unsigned long -> scm_bits_t.
type renaming:
scm_option -> scm_option_t
the old name is deprecated, all in-Guile uses changed.

* objects.c: various long -> scm_bits_t changes.
(scm_i_make_class_object): flags: unsigned long -> scm_ubits_t

* numbers.h (SCM_FIXNUM_BIT): deprecated, renamed to
SCM_I_FIXNUM_BIT.

* num2integral.i.c: new file, multiply included by numbers.c, used
to "templatize" the various integral <-> num conversion routines.

* numbers.c (scm_mkbig, scm_big2num, scm_adjbig, scm_normbig,
scm_copybig, scm_2ulong2big, scm_dbl2big, scm_big2dbl):
deprecated.
(scm_i_mkbig, scm_i_big2inum, scm_i_adjbig, scm_i_normbig,
scm_i_copybig, scm_i_short2big, scm_i_ushort2big, scm_i_int2big,
scm_i_uint2big, scm_i_long2big, scm_i_ulong2big, scm_i_bits2big,
scm_i_ubits2big, scm_i_size2big, scm_i_ptrdiff2big,
scm_i_long_long2big, scm_i_ulong_long2big, scm_i_dbl2big,
scm_i_big2dbl, scm_short2num, scm_ushort2num, scm_int2num,
scm_uint2num, scm_bits2num, scm_ubits2num, scm_size2num,
scm_ptrdiff2num, scm_num2short, scm_num2ushort, scm_num2int,
scm_num2uint, scm_num2bits, scm_num2ubits, scm_num2ptrdiff,
scm_num2size): new functions.

* modules.c (scm_module_reverse_lookup): i, n: int -> scm_bits_t.x

* load.c: change int -> size_t in various places (where the
variable is used to store a string length).
(search-path): call scm_done_free, not scm_done_malloc.

* list.c (scm_ilength): return a scm_bits_t, not long.
some other {int,long} -> scm_bits_t changes.

* hashtab.c: various [u]int -> scm_bits_t changes.
scm_ihashx_closure -> scm_ihashx_closure_t (and made a typedef).
(scm_ihashx): n: uint -> scm_bits_t
use scm_bits2num instead of scm_ulong2num.

* gsubr.c: various int -> scm_bits_t changes.

* gh_data.c (gh_scm2double): no loss of precision any more.

* gh.h (gh_str2scm): len: int -> size_t
(gh_{get,set}_substr): start: int -> scm_bits_t,
len: int -> size_t
(gh_<num>2scm): n: int -> scm_bits_t
(gh_*vector_length): return scm_[u]size_t, not unsigned long.
(gh_length): return scm_bits_t, not unsigned long.

* fports.h: type renaming:
scm_fport -> scm_fport_t
the old name is deprecated, all in-Guile uses changed.

* fports.c (fport_fill_input): count: int -> scm_bits_t
(fport_flush): init_size, remaining, count: int -> scm_bits_t

* debug.h (scm_lookup_cstr, scm_lookup_soft, scm_evstr): removed
those prototypes, as the functions they prototype don't exist.

* fports.c (default_buffer_size): int -> size_t
(scm_fport_buffer_add): read_size, write_size: int -> scm_bits_t
default_size: int -> size_t
(scm_setvbuf): csize: int -> scm_bits_t

* fluids.c (n_fluids): int -> scm_bits_t
(grow_fluids): old_length, i: int -> scm_bits_t
(next_fluid_num, scm_fluid_ref, scm_fluid_set_x): n: int ->
scm_bits_t
(scm_c_with_fluids): flen, vlen: int -> scm_bits_t

* filesys.c (s_scm_open_fdes): changed calls to SCM_NUM2LONG to
the new and shiny SCM_NUM2INT.

* extensions.c: extension -> extension_t (and made a typedef).

* eval.h (SCM_IFRAME): cast to scm_bits_t, not int.  just so
there are no nasty surprises if/when the various deeply magic tag
bits move somewhere else.

* eval.c: changed the locals used to store results of SCM_IFRAME,
scm_ilength and such to be of type scm_bits_t (and not int/long).
(iqq): depth, edepth: int -> scm_bits_t
(scm_eval_stack): int -> scm_bits_t
(SCM_CEVAL): various vars are not scm_bits_t instead of int.
(check_map_args, scm_map, scm_for_each): len: long -> scm_bits_t
i: int -> scm_bits_t

* environments.c: changed the many calls to scm_ulong2num to
scm_ubits2num.
(import_environment_fold): proc_as_ul: ulong -> scm_ubits_t

* dynwind.c (scm_dowinds): delta: long -> scm_bits_t

* debug.h: type renaming:
scm_debug_info -> scm_debug_info_t
scm_debug_frame -> scm_debug_frame_t
the old names are deprecated, all in-Guile uses changed.
(scm_debug_eframe_size): int -> scm_bits_t

* debug.c (scm_init_debug): use scm_c_define instead of the
deprecated scm_define.

* continuations.h: type renaming:
scm_contregs -> scm_contregs_t
the old name is deprecated, all in-Guile uses changed.
(scm_contregs_t.num_stack_items): size_t -> scm_bits_t
(scm_contregs_t.num_stack_items): ulong -> scm_ubits_t

* continuations.c (scm_make_continuation): change the type of
stack_size form long to scm_bits_t.

* ports.h: type renaming:
scm_port_rw_active -> scm_port_rw_active_t (and made a typedef)
scm_port -> scm_port_t
scm_ptob_descriptor -> scm_ptob_descriptor_t
the old names are deprecated, all in-Guile uses changed.
(scm_port_t.entry): int -> scm_bits_t.
(scm_port_t.line_number): int -> long.
(scm_port_t.putback_buf_size): int -> size_t.

* __scm.h (long_long, ulong_long): deprecated (they pollute the
global namespace and have little value besides that).
(SCM_BITS_LENGTH): new, is the bit size of scm_bits_t (i.e. of an
SCM handle).
(ifdef spaghetti): include sys/types.h and sys/stdtypes.h, if they
exist (for size_t & ptrdiff_t)
(scm_sizet): deprecated.

* Makefile.am (noinst_HEADERS): add num2integral.i.c
2001-05-24 00:50:51 +00:00

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/* Copyright (C) 1999,2000,2001 Free Software Foundation, Inc.
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this software; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
* Boston, MA 02111-1307 USA
*
* As a special exception, the Free Software Foundation gives permission
* for additional uses of the text contained in its release of GUILE.
*
* The exception is that, if you link the GUILE library with other files
* to produce an executable, this does not by itself cause the
* resulting executable to be covered by the GNU General Public License.
* Your use of that executable is in no way restricted on account of
* linking the GUILE library code into it.
*
* This exception does not however invalidate any other reasons why
* the executable file might be covered by the GNU General Public License.
*
* This exception applies only to the code released by the
* Free Software Foundation under the name GUILE. If you copy
* code from other Free Software Foundation releases into a copy of
* GUILE, as the General Public License permits, the exception does
* not apply to the code that you add in this way. To avoid misleading
* anyone as to the status of such modified files, you must delete
* this exception notice from them.
*
* If you write modifications of your own for GUILE, it is your choice
* whether to permit this exception to apply to your modifications.
* If you do not wish that, delete this exception notice. */
/* Software engineering face-lift by Greg J. Badros, 11-Dec-1999,
gjb@cs.washington.edu, http://www.cs.washington.edu/homes/gjb */
/* Author: Mikael Djurfeldt <djurfeldt@nada.kth.se> */
#include "libguile/_scm.h"
#include <stdio.h>
#include <math.h>
#include <string.h>
#include "libguile/smob.h"
#include "libguile/numbers.h"
#include "libguile/feature.h"
#include "libguile/strings.h"
#include "libguile/unif.h"
#include "libguile/vectors.h"
#include "libguile/validate.h"
#include "libguile/random.h"
/*
* A plugin interface for RNGs
*
* Using this interface, it is possible for the application to tell
* libguile to use a different RNG. This is desirable if it is
* necessary to use the same RNG everywhere in the application in
* order to prevent interference, if the application uses RNG
* hardware, or if the application has special demands on the RNG.
*
* Look in random.h and how the default generator is "plugged in" in
* scm_init_random().
*/
scm_rng_t scm_the_rng;
/*
* The prepackaged RNG
*
* This is the MWC (Multiply With Carry) random number generator
* described by George Marsaglia at the Department of Statistics and
* Supercomputer Computations Research Institute, The Florida State
* University (http://stat.fsu.edu/~geo).
*
* It uses 64 bits, has a period of 4578426017172946943 (4.6e18), and
* passes all tests in the DIEHARD test suite
* (http://stat.fsu.edu/~geo/diehard.html)
*/
#define A 2131995753UL
#if SIZEOF_LONG > 4
#if SIZEOF_INT > 4
#define LONG32 unsigned short
#else
#define LONG32 unsigned int
#endif
#define LONG64 unsigned long
#else
#define LONG32 unsigned long
#define LONG64 unsigned long long
#endif
#if SIZEOF_LONG > 4 || defined (HAVE_LONG_LONGS)
unsigned long
scm_i_uniform32 (scm_i_rstate_t *state)
{
LONG64 x = (LONG64) A * state->w + state->c;
LONG32 w = x & 0xffffffffUL;
state->w = w;
state->c = x >> 32L;
return w;
}
#else
/* ww This is a portable version of the same RNG without 64 bit
* * aa arithmetic.
* ----
* xx It is only intended to provide identical behaviour on
* xx platforms without 8 byte longs or long longs until
* xx someone has implemented the routine in assembler code.
* xxcc
* ----
* ccww
*/
#define L(x) ((x) & 0xffff)
#define H(x) ((x) >> 16)
unsigned long
scm_i_uniform32 (scm_i_rstate_t *state)
{
LONG32 x1 = L (A) * L (state->w);
LONG32 x2 = L (A) * H (state->w);
LONG32 x3 = H (A) * L (state->w);
LONG32 w = L (x1) + L (state->c);
LONG32 m = H (x1) + L (x2) + L (x3) + H (state->c) + H (w);
LONG32 x4 = H (A) * H (state->w);
state->w = w = (L (m) << 16) + L (w);
state->c = H (x2) + H (x3) + x4 + H (m);
return w;
}
#endif
void
scm_i_init_rstate (scm_i_rstate_t *state, char *seed, int n)
{
LONG32 w = 0L;
LONG32 c = 0L;
int i, m;
for (i = 0; i < n; ++i)
{
m = i % 8;
if (m < 4)
w += seed[i] << (8 * m);
else
c += seed[i] << (8 * (m - 4));
}
if ((w == 0 && c == 0) || (w == 0xffffffffUL && c == A - 1))
++c;
state->w = w;
state->c = c;
}
scm_i_rstate_t *
scm_i_copy_rstate (scm_i_rstate_t *state)
{
scm_rstate_t *new_state = malloc (scm_the_rng.rstate_size);
if (new_state == 0)
scm_memory_error ("rstate");
return memcpy (new_state, state, scm_the_rng.rstate_size);
}
/*
* Random number library functions
*/
scm_rstate_t *
scm_c_make_rstate (char *seed, int n)
{
scm_rstate_t *state = malloc (scm_the_rng.rstate_size);
if (state == 0)
scm_memory_error ("rstate");
state->reserved0 = 0;
scm_the_rng.init_rstate (state, seed, n);
return state;
}
scm_rstate_t *
scm_c_default_rstate ()
#define FUNC_NAME "scm_c_default_rstate"
{
SCM state = SCM_CDR (scm_var_random_state);
if (!SCM_RSTATEP (state))
SCM_MISC_ERROR ("*random-state* contains bogus random state", SCM_EOL);
return SCM_RSTATE (state);
}
#undef FUNC_NAME
inline double
scm_c_uniform01 (scm_rstate_t *state)
{
double x = (double) scm_the_rng.random_bits (state) / (double) 0xffffffffUL;
return ((x + (double) scm_the_rng.random_bits (state))
/ (double) 0xffffffffUL);
}
double
scm_c_normal01 (scm_rstate_t *state)
{
if (state->reserved0)
{
state->reserved0 = 0;
return state->reserved1;
}
else
{
double r, a, n;
r = sqrt (-2.0 * log (scm_c_uniform01 (state)));
a = 2.0 * M_PI * scm_c_uniform01 (state);
n = r * sin (a);
state->reserved1 = r * cos (a);
state->reserved0 = 1;
return n;
}
}
double
scm_c_exp1 (scm_rstate_t *state)
{
return - log (scm_c_uniform01 (state));
}
unsigned char scm_masktab[256];
unsigned long
scm_c_random (scm_rstate_t *state, unsigned long m)
{
unsigned int r, mask;
mask = (m < 0x100
? scm_masktab[m]
: (m < 0x10000
? scm_masktab[m >> 8] << 8 | 0xff
: (m < 0x1000000
? scm_masktab[m >> 16] << 16 | 0xffff
: scm_masktab[m >> 24] << 24 | 0xffffff)));
while ((r = scm_the_rng.random_bits (state) & mask) >= m);
return r;
}
SCM
scm_c_random_bignum (scm_rstate_t *state, SCM m)
{
SCM b;
int i, nd;
LONG32 *bits, mask, w;
nd = SCM_NUMDIGS (m);
/* calculate mask for most significant digit */
#if SIZEOF_INT == 4
/* 16 bit digits */
if (nd & 1)
{
/* fix most significant 16 bits */
unsigned short s = SCM_BDIGITS (m)[nd - 1];
mask = s < 0x100 ? scm_masktab[s] : scm_masktab[s >> 8] << 8 | 0xff;
}
else
#endif
{
/* fix most significant 32 bits */
#if SIZEOF_INT == 4
w = SCM_BDIGITS (m)[nd - 1] << 16 | SCM_BDIGITS (m)[nd - 2];
#else
w = SCM_BDIGITS (m)[nd - 1];
#endif
mask = (w < 0x10000
? (w < 0x100
? scm_masktab[w]
: scm_masktab[w >> 8] << 8 | 0xff)
: (w < 0x1000000
? scm_masktab[w >> 16] << 16 | 0xffff
: scm_masktab[w >> 24] << 24 | 0xffffff));
}
b = scm_i_mkbig (nd, 0);
bits = (LONG32 *) SCM_BDIGITS (b);
do
{
i = nd;
/* treat most significant digit specially */
#if SIZEOF_INT == 4
/* 16 bit digits */
if (i & 1)
{
((SCM_BIGDIG*) bits)[i - 1] = scm_the_rng.random_bits (state) & mask;
i /= 2;
}
else
#endif
{
/* fix most significant 32 bits */
#if SIZEOF_INT == 4
w = scm_the_rng.random_bits (state) & mask;
((SCM_BIGDIG*) bits)[i - 2] = w & 0xffff;
((SCM_BIGDIG*) bits)[i - 1] = w >> 16;
i = i / 2 - 1;
#else
i /= 2;
bits[--i] = scm_the_rng.random_bits (state) & mask;
#endif
}
/* now fill up the rest of the bignum */
while (i)
bits[--i] = scm_the_rng.random_bits (state);
b = scm_i_normbig (b);
if (SCM_INUMP (b))
return b;
} while (scm_bigcomp (b, m) <= 0);
return b;
}
/*
* Scheme level representation of random states.
*/
scm_bits_t scm_tc16_rstate;
static SCM
make_rstate (scm_rstate_t *state)
{
SCM_RETURN_NEWSMOB (scm_tc16_rstate, state);
}
static size_t
rstate_free (SCM rstate)
{
free (SCM_RSTATE (rstate));
return scm_the_rng.rstate_size;
}
/*
* Scheme level interface.
*/
SCM_GLOBAL_VARIABLE_INIT (scm_var_random_state, "*random-state*", scm_seed_to_random_state (scm_makfrom0str ("URL:http://stat.fsu.edu/~geo/diehard.html")));
SCM_DEFINE (scm_random, "random", 1, 1, 0,
(SCM n, SCM state),
"Return a number in [0,N).\n"
"\n"
"Accepts a positive integer or real n and returns a \n"
"number of the same type between zero (inclusive) and \n"
"N (exclusive). The values returned have a uniform \n"
"distribution.\n"
"\n"
"The optional argument @var{state} must be of the type produced\n"
"by @code{seed->random-state}. It defaults to the value of the\n"
"variable @var{*random-state*}. This object is used to maintain\n"
"the state of the pseudo-random-number generator and is altered\n"
"as a side effect of the random operation.")
#define FUNC_NAME s_scm_random
{
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (2,state);
if (SCM_INUMP (n))
{
unsigned long m = SCM_INUM (n);
SCM_ASSERT_RANGE (1,n,m > 0);
return SCM_MAKINUM (scm_c_random (SCM_RSTATE (state), m));
}
SCM_VALIDATE_NIM (1,n);
if (SCM_REALP (n))
return scm_make_real (SCM_REAL_VALUE (n)
* scm_c_uniform01 (SCM_RSTATE (state)));
SCM_VALIDATE_SMOB (1, n, big);
return scm_c_random_bignum (SCM_RSTATE (state), n);
}
#undef FUNC_NAME
SCM_DEFINE (scm_copy_random_state, "copy-random-state", 0, 1, 0,
(SCM state),
"Return a copy of the random state @var{state}.")
#define FUNC_NAME s_scm_copy_random_state
{
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (1,state);
return make_rstate (scm_the_rng.copy_rstate (SCM_RSTATE (state)));
}
#undef FUNC_NAME
SCM_DEFINE (scm_seed_to_random_state, "seed->random-state", 1, 0, 0,
(SCM seed),
"Return a new random state using @var{seed}.")
#define FUNC_NAME s_scm_seed_to_random_state
{
if (SCM_NUMBERP (seed))
seed = scm_number_to_string (seed, SCM_UNDEFINED);
SCM_VALIDATE_STRING (1,seed);
return make_rstate (scm_c_make_rstate (SCM_STRING_CHARS (seed),
SCM_STRING_LENGTH (seed)));
}
#undef FUNC_NAME
SCM_DEFINE (scm_random_uniform, "random:uniform", 0, 1, 0,
(SCM state),
"Return a uniformly distributed inexact real random number in\n"
"[0,1).")
#define FUNC_NAME s_scm_random_uniform
{
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (1,state);
return scm_make_real (scm_c_uniform01 (SCM_RSTATE (state)));
}
#undef FUNC_NAME
SCM_DEFINE (scm_random_normal, "random:normal", 0, 1, 0,
(SCM state),
"Return an inexact real in a normal distribution. The\n"
"distribution used has mean 0 and standard deviation 1. For a\n"
"normal distribution with mean m and standard deviation d use\n"
"@code{(+ m (* d (random:normal)))}.")
#define FUNC_NAME s_scm_random_normal
{
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (1,state);
return scm_make_real (scm_c_normal01 (SCM_RSTATE (state)));
}
#undef FUNC_NAME
#ifdef HAVE_ARRAYS
static void
vector_scale (SCM v, double c)
{
int n = SCM_INUM (scm_uniform_vector_length (v));
if (SCM_VECTORP (v))
while (--n >= 0)
SCM_REAL_VALUE (SCM_VELTS (v)[n]) *= c;
else
while (--n >= 0)
((double *) SCM_VELTS (v))[n] *= c;
}
static double
vector_sum_squares (SCM v)
{
double x, sum = 0.0;
int n = SCM_INUM (scm_uniform_vector_length (v));
if (SCM_VECTORP (v))
while (--n >= 0)
{
x = SCM_REAL_VALUE (SCM_VELTS (v)[n]);
sum += x * x;
}
else
while (--n >= 0)
{
x = ((double *) SCM_VELTS (v))[n];
sum += x * x;
}
return sum;
}
/* For the uniform distribution on the solid sphere, note that in
* this distribution the length r of the vector has cumulative
* distribution r^n; i.e., u=r^n is uniform [0,1], so r can be
* generated as r=u^(1/n).
*/
SCM_DEFINE (scm_random_solid_sphere_x, "random:solid-sphere!", 1, 1, 0,
(SCM v, SCM state),
"Fills vect with inexact real random numbers\n"
"the sum of whose squares is less than 1.0.\n"
"Thinking of vect as coordinates in space of \n"
"dimension n = (vector-length vect), the coordinates \n"
"are uniformly distributed within the unit n-shere.\n"
"The sum of the squares of the numbers is returned.")
#define FUNC_NAME s_scm_random_solid_sphere_x
{
SCM_VALIDATE_VECTOR_OR_DVECTOR (1,v);
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (2,state);
scm_random_normal_vector_x (v, state);
vector_scale (v,
pow (scm_c_uniform01 (SCM_RSTATE (state)),
1.0 / SCM_INUM (scm_uniform_vector_length (v)))
/ sqrt (vector_sum_squares (v)));
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_random_hollow_sphere_x, "random:hollow-sphere!", 1, 1, 0,
(SCM v, SCM state),
"Fills vect with inexact real random numbers\n"
"the sum of whose squares is equal to 1.0.\n"
"Thinking of vect as coordinates in space of \n"
"dimension n = (vector-length vect), the coordinates\n"
"are uniformly distributed over the surface of the \n"
"unit n-shere.")
#define FUNC_NAME s_scm_random_hollow_sphere_x
{
SCM_VALIDATE_VECTOR_OR_DVECTOR (1,v);
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (2,state);
scm_random_normal_vector_x (v, state);
vector_scale (v, 1 / sqrt (vector_sum_squares (v)));
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_random_normal_vector_x, "random:normal-vector!", 1, 1, 0,
(SCM v, SCM state),
"Fills vect with inexact real random numbers that are\n"
"independent and standard normally distributed\n"
"(i.e., with mean 0 and variance 1).")
#define FUNC_NAME s_scm_random_normal_vector_x
{
int n;
SCM_VALIDATE_VECTOR_OR_DVECTOR (1,v);
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (2,state);
n = SCM_INUM (scm_uniform_vector_length (v));
if (SCM_VECTORP (v))
while (--n >= 0)
SCM_VELTS (v)[n] = scm_make_real (scm_c_normal01 (SCM_RSTATE (state)));
else
while (--n >= 0)
((double *) SCM_VELTS (v))[n] = scm_c_normal01 (SCM_RSTATE (state));
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
#endif /* HAVE_ARRAYS */
SCM_DEFINE (scm_random_exp, "random:exp", 0, 1, 0,
(SCM state),
"Return an inexact real in an exponential distribution with mean\n"
"1. For an exponential distribution with mean u use (* u\n"
"(random:exp)).")
#define FUNC_NAME s_scm_random_exp
{
if (SCM_UNBNDP (state))
state = SCM_VARIABLE_REF (scm_var_random_state);
SCM_VALIDATE_RSTATE (1,state);
return scm_make_real (scm_c_exp1 (SCM_RSTATE (state)));
}
#undef FUNC_NAME
void
scm_init_random ()
{
int i, m;
/* plug in default RNG */
scm_rng_t rng =
{
sizeof (scm_i_rstate_t),
(unsigned long (*)()) scm_i_uniform32,
(void (*)()) scm_i_init_rstate,
(scm_rstate_t *(*)()) scm_i_copy_rstate
};
scm_the_rng = rng;
scm_tc16_rstate = scm_make_smob_type ("random-state", 0);
scm_set_smob_free (scm_tc16_rstate, rstate_free);
for (m = 1; m <= 0x100; m <<= 1)
for (i = m >> 1; i < m; ++i)
scm_masktab[i] = m - 1;
#ifndef SCM_MAGIC_SNARFER
#include "libguile/random.x"
#endif
/* Check that the assumptions about bits per bignum digit are correct. */
#if SIZEOF_INT == 4
m = 16;
#else
m = 32;
#endif
if (m != SCM_BITSPERDIG)
{
fprintf (stderr, "Internal inconsistency: Confused about bignum digit size in random.c\n");
exit (1);
}
scm_add_feature ("random");
}
/*
Local Variables:
c-file-style: "gnu"
End:
*/
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